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Flagstaff Hill Maritime Museum and Village
Tool - Auger, Mathieson, First half of the 20th Century
In 1792 John Manners had set up a workshop making woodworking planes at 14 Saracens Lane Glasgow. He also had employed an apprentice Alexander Mathieson (1773-1851). But in the following year at Saracen's Lane, the 1841 census describes Alexander Mathieson as a master plane-maker now at 38 Saracen Lane with his son Thomas Adam working with him as a journeyman plane-maker. Presumably, Alexander must have taken over the premises and business of John Manners. Now that the business had Thomas Adam Mathieson working with his father it gradually grew and became more diversified, and it is recorded at the time by the Post-Office Glasgow Annual Directory that by 1847-1848 Alexander Mathieson was a “plane, brace, bit, auger & edge tool maker” In 1849 the firm of James & William Stewart at 65 Nicolson Street, Edinburgh was taken over and Thomas was put in charge of the business, trading under the name Thomas A. Mathieson & Co. as plane and edge-tool makers. Thomas's company went on to acquire the Edinburgh edge-tool makers “Charles & Hugh McPherson” and took over their premises in Gilmore Street. In the Edinburgh directory of 1856/7, the business is recorded as being Alexander Mathieson & Son, plane and edge-tool makers at 48 Nicolson Street and Paul's Work, Gilmore Street Edinburgh. The 1851 census Alexander is recorded as working as a tool and plane-maker employing eight men. Later that year Alexander died and his son Thomas took over the business. Under the heading of an edge-tool maker in the 1852/3 Post-Office Glasgow Annual Directory the firm is now listed as Alexander Mathieson & Son, with further entries as "turning-lathe and vice manufacturers". By the early 1850s, the business had moved to 24 Saracen Lane. The directory for 1857/8 records that the firm had moved again only a few years later to East Campbell Street, off the Gallowgate area, and that through further diversification was also manufacturing coopers' and tinmen's tools. The ten-yearly censuses report the firm's growth in 1861 stating that Thomas was a tool manufacturer employing 95 men and 30 boys; in 1871 he had 200 men working for him and in 1881 300 men. By 1899 the firm had been incorporated as Alexander Mathieson & Sons Ltd, even though only Alexander's son Thomas appears ever to have joined the firm so the company was still in his fathers' name. In September 1868 Thomas Mathieson put a notice in the newspapers of the Sheffield & Rotherham Independent and the Sheffield Daily Telegraph stating that his firm had used the trade-mark of a crescent and star "for some time" and that "using or imitating the Mark would be proceeded against for infringement". The firm had acquired its interest in the crescent-and-star mark from the heirs of Charles Pickslay, the Sheffield cutler who had registered it with the Cutlers' Company in 1833 and had died in 1852. The year 1868 seems also to be the one in which the name Saracen Tool Works was first adopted; not only does it figure at the foot of the notice in the Sheffield press, it also makes its first appearance in the firm's entry in the Post-Office Glasgow Annual Directory in the 1868/9 edition. As Thomas Mathieson's business grew, so too did his involvement in local public life and philanthropy. One of the representatives of the third ward on the town council of Glasgow, he became a river bailie in 1868, a magistrate in 1870 and a preceptor of Hutcheson's Hospital in 1878. He had a passion for books and was an "ardent Ruskinian". He served on the committee handling the bequest for the setting up of the Mitchell Library in Glasgow. When he died at Coulter Maynes near Biggar in 1899, he left an estate worth £142,764. Company's later years: Both Thomas's sons, James Harper and Thomas Ogilvie were involved in the continuing life of the firm. James followed in his father's footsteps in becoming a local public figure. He was appointed Deputy Lieutenant of the County of the City of Glasgow and was made a deacon of the Incorporation of the Hammermen of Glasgow in 1919. His brother Thomas Ogilvie was recorded as tool manufacturer and employer in the 1911 census. Thomas Ogilvie's son Thomas Alastair Sutherland Ogilvie Mathieson was born in 1908 took a rather different approach to engineering, however, by becoming a racing driver. In 1947 he wed the French film actress Mila Parély. The firm had won many awards at world fairs for their goods. At the Great Exhibition, London, 1851. Prize medal for joiners' tools in the class of Cutlery & Edge Tools, Great London Exposition, 1862. Prize medal honoris causa. International Exhibition, Melbourne, 1880. Gold medal International Exhibition of Industry, Science and Art, Edinburgh, 1886. Prize medal The firm of Alexander Mathieson & Sons was one of the leading makers of hand tools in Scotland. Its success went hand in hand with the growth of the shipbuilding industries on the Firth of Clyde in the nineteenth century and the emergence of Glasgow as the "second city of the Empire". It also reflected the firm's skill in responding to an unprecedented demand for quality tools by shipyards, cooperages and other industries, both locally and far and wide.Ring Auger, Double Twist with Lead Screw, 1 1/8 inch bit with round shaft Stamped Mathiesonflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, auger, ring auger, ship building -
Flagstaff Hill Maritime Museum and Village
Tool - Auger, Mathieson, First half of the 20th Century
In 1792 John Manners had set up a workshop making woodworking planes at 14 Saracens Lane Glasgow. He also had employed an apprentice Alexander Mathieson (1773-1851). But in the following year at Saracen's Lane, the 1841 census describes Alexander Mathieson as a master plane-maker now at 38 Saracen Lane with his son Thomas Adam working with him as a journeyman plane-maker. Presumably, Alexander must have taken over the premises and business of John Manners. Now that the business had Thomas Adam Mathieson working with his father it gradually grew and became more diversified, and it is recorded at the time by the Post-Office Glasgow Annual Directory that by 1847-1848 Alexander Mathieson was a “plane, brace, bit, auger & edge tool maker” In 1849 the firm of James & William Stewart at 65 Nicolson Street, Edinburgh was taken over and Thomas was put in charge of the business, trading under the name Thomas A. Mathieson & Co. as plane and edge-tool makers. Thomas's company went on to acquire the Edinburgh edge-tool makers “Charles & Hugh McPherson” and took over their premises in Gilmore Street. In the Edinburgh directory of 1856/7, the business is recorded as being Alexander Mathieson & Son, plane and edge-tool makers at 48 Nicolson Street and Paul's Work, Gilmore Street Edinburgh. The 1851 census Alexander is recorded as working as a tool and plane-maker employing eight men. Later that year Alexander died and his son Thomas took over the business. Under the heading of an edge-tool maker in the 1852/3 Post-Office Glasgow Annual Directory the firm is now listed as Alexander Mathieson & Son, with further entries as "turning-lathe and vice manufacturers". By the early 1850s, the business had moved to 24 Saracen Lane. The directory for 1857/8 records that the firm had moved again only a few years later to East Campbell Street, off the Gallowgate area, and that through further diversification was also manufacturing coopers' and tinmen's tools. The ten-yearly censuses report the firm's growth in 1861 stating that Thomas was a tool manufacturer employing 95 men and 30 boys; in 1871 he had 200 men working for him and in 1881 300 men. By 1899 the firm had been incorporated as Alexander Mathieson & Sons Ltd, even though only Alexander's son Thomas appears ever to have joined the firm so the company was still in his fathers' name. In September 1868 Thomas Mathieson put a notice in the newspapers of the Sheffield & Rotherham Independent and the Sheffield Daily Telegraph stating that his firm had used the trade-mark of a crescent and star "for some time" and that "using or imitating the Mark would be proceeded against for infringement". The firm had acquired its interest in the crescent-and-star mark from the heirs of Charles Pickslay, the Sheffield cutler who had registered it with the Cutlers' Company in 1833 and had died in 1852. The year 1868 seems also to be the one in which the name Saracen Tool Works was first adopted; not only does it figure at the foot of the notice in the Sheffield press, it also makes its first appearance in the firm's entry in the Post-Office Glasgow Annual Directory in the 1868/9 edition. As Thomas Mathieson's business grew, so too did his involvement in local public life and philanthropy. One of the representatives of the third ward on the town council of Glasgow, he became a river bailie in 1868, a magistrate in 1870 and a preceptor of Hutcheson's Hospital in 1878. He had a passion for books and was an "ardent Ruskinian". He served on the committee handling the bequest for the setting up of the Mitchell Library in Glasgow. When he died at Coulter Maynes near Biggar in 1899, he left an estate worth £142,764. Company's later years: Both Thomas's sons, James Harper and Thomas Ogilvie were involved in the continuing life of the firm. James followed in his father's footsteps in becoming a local public figure. He was appointed Deputy Lieutenant of the County of the City of Glasgow and was made a deacon of the Incorporation of the Hammermen of Glasgow in 1919. His brother Thomas Ogilvie was recorded as tool manufacturer and employer in the 1911 census. Thomas Ogilvie's son Thomas Alastair Sutherland Ogilvie Mathieson was born in 1908 took a rather different approach to engineering, however, by becoming a racing driver. In 1947 he wed the French film actress Mila Parély. The firm had won many awards at world fairs for their goods. At the Great Exhibition, London, 1851. Prize medal for joiners' tools in the class of Cutlery & Edge Tools, Great London Exposition, 1862. Prize medal honoris causa. International Exhibition, Melbourne, 1880. Gold medal International Exhibition of Industry, Science and Art, Edinburgh, 1886. Prize medal The firm of Alexander Mathieson & Sons was one of the leading makers of hand tools in Scotland. Its success went hand in hand with the growth of the shipbuilding industries on the Firth of Clyde in the nineteenth century and the emergence of Glasgow as the "second city of the Empire". It also reflected the firm's skill in responding to an unprecedented demand for quality tools by shipyards, cooperages and other industries, both locally and far and wide.Scotch Eye Auger, Double Twist with Lead Screw, bit 7/16 inch with round shaft 695mmL Stamped Mathiesonflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, auger, ring auger, ship building -
Orbost & District Historical Society
book, Spon, E. & F.N.Ltd, Molesworth's Pocket Book of Engineerimng Formulae, 1903
This book belonged to John Draffin. John Draffin came to Australia as a child with his parents from the north of Ireland . He came to Orbost in 1894 and was Shire Secretary from then until 1910 He had four children: Andrina, Eva, George, Maggie, Sally and Nellie.This item is associated with John Draffin who was a prominent Orbost citizen involved in many community activities. This item is a useful research toolA small black leather bound 782 pp book with the title, "Molesworth's Pocket Book of Engineering Formulae" in gold print inside an ornate gold border. Pages are gilt edged. Contains line drawings and charts. inside front cover - "John Draffin, Orbost 24.12.04"book-enginering-formulae molesworth-sir-guilford-lindsay science -
Flagstaff Hill Maritime Museum and Village
Tool - Auger, Mathieson, First half of the 20th Century
In 1792 John Manners had set up a workshop making woodworking planes at 14 Saracens Lane Glasgow. He also had employed an apprentice Alexander Mathieson (1773-1851). But in the following year at Saracen's Lane, the 1841 census describes Alexander Mathieson as a master plane-maker now at 38 Saracen Lane with his son Thomas Adam working with him as a journeyman plane-maker. Presumably, Alexander must have taken over the premises and business of John Manners. Now that the business had Thomas Adam Mathieson working with his father it gradually grew and became more diversified, and it is recorded at the time by the Post-Office Glasgow Annual Directory that by 1847-1848 Alexander Mathieson was a “plane, brace, bit, auger & edge tool maker” In 1849 the firm of James & William Stewart at 65 Nicolson Street, Edinburgh was taken over and Thomas was put in charge of the business, trading under the name Thomas A. Mathieson & Co. as plane and edge-tool makers. Thomas's company went on to acquire the Edinburgh edge-tool makers “Charles & Hugh McPherson” and took over their premises in Gilmore Street. In the Edinburgh directory of 1856/7, the business is recorded as being Alexander Mathieson & Son, plane and edge-tool makers at 48 Nicolson Street and Paul's Work, Gilmore Street Edinburgh. The 1851 census Alexander is recorded as working as a tool and plane-maker employing eight men. Later that year Alexander died and his son Thomas took over the business. Under the heading of an edge-tool maker in the 1852/3 Post-Office Glasgow Annual Directory the firm is now listed as Alexander Mathieson & Son, with further entries as "turning-lathe and vice manufacturers". By the early 1850s, the business had moved to 24 Saracen Lane. The directory for 1857/8 records that the firm had moved again only a few years later to East Campbell Street, off the Gallowgate area, and that through further diversification was also manufacturing coopers' and tinmen's tools. The ten-yearly censuses report the firm's growth in 1861 stating that Thomas was a tool manufacturer employing 95 men and 30 boys; in 1871 he had 200 men working for him and in 1881 300 men. By 1899 the firm had been incorporated as Alexander Mathieson & Sons Ltd, even though only Alexander's son Thomas appears ever to have joined the firm so the company was still in his fathers' name. In September 1868 Thomas Mathieson put a notice in the newspapers of the Sheffield & Rotherham Independent and the Sheffield Daily Telegraph stating that his firm had used the trade-mark of a crescent and star "for some time" and that "using or imitating the Mark would be proceeded against for infringement". The firm had acquired its interest in the crescent-and-star mark from the heirs of Charles Pickslay, the Sheffield cutler who had registered it with the Cutlers' Company in 1833 and had died in 1852. The year 1868 seems also to be the one in which the name Saracen Tool Works was first adopted; not only does it figure at the foot of the notice in the Sheffield press, it also makes its first appearance in the firm's entry in the Post-Office Glasgow Annual Directory in the 1868/9 edition. As Thomas Mathieson's business grew, so too did his involvement in local public life and philanthropy. One of the representatives of the third ward on the town council of Glasgow, he became a river bailie in 1868, a magistrate in 1870 and a preceptor of Hutcheson's Hospital in 1878. He had a passion for books and was an "ardent Ruskinian". He served on the committee handling the bequest for the setting up of the Mitchell Library in Glasgow. When he died at Coulter Maynes near Biggar in 1899, he left an estate worth £142,764. Company's later years: Both Thomas's sons, James Harper and Thomas Ogilvie were involved in the continuing life of the firm. James followed in his father's footsteps in becoming a local public figure. He was appointed Deputy Lieutenant of the County of the City of Glasgow and was made a deacon of the Incorporation of the Hammermen of Glasgow in 1919. His brother Thomas Ogilvie was recorded as tool manufacturer and employer in the 1911 census. Thomas Ogilvie's son Thomas Alastair Sutherland Ogilvie Mathieson was born in 1908 took a rather different approach to engineering, however, by becoming a racing driver. In 1947 he wed the French film actress Mila Parély. The firm had won many awards at world fairs for their goods. At the Great Exhibition, London, 1851. Prize medal for joiners' tools in the class of Cutlery & Edge Tools, Great London Exposition, 1862. Prize medal honoris causa. International Exhibition, Melbourne, 1880. Gold medal International Exhibition of Industry, Science and Art, Edinburgh, 1886. Prize medal The firm of Alexander Mathieson & Sons was one of the leading makers of hand tools in Scotland. Its success went hand in hand with the growth of the shipbuilding industries on the Firth of Clyde in the nineteenth century and the emergence of Glasgow as the "second city of the Empire". It also reflected the firm's skill in responding to an unprecedented demand for quality tools by shipyards, cooperages and other industries, both locally and far and wide.Scotch Eye Auger, Double Twist with Lead Screw 2 inch bit with round shaft leading to handle socketStamped A Mathiesonflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, auger, ring auger, ship building -
Flagstaff Hill Maritime Museum and Village
Instrument - Barometer, 1867
Langlands Company History: Langlands foundry was Melbourne's first foundry and iron shipbuilder established in 1842, only 8 years after the founding of the Victorian colony by two Scottish immigrants, Robert Langlands and Thomas Fulton, who had formed a partnership before emigrating (1813–1859). The business was known as the 'Langlands Foundry Co'. Henry Langlands (1794-1863), left Scotland in 1846 with his wife Christian, née Thoms, and five surviving children to join his brother Robert. By the time he arrived in early January of 1847 the partnership of Robert Langlands and Fulton had dissolved as Fulton had gone off to establish his own works. It was at this time that the two brothers took over ownership of Langlands foundry. Several years later Robert retired and Henry became sole the proprietor. The foundry was originally located on Flinders Lane between King and Spencer streets. Their sole machine tool, when they commenced as a business, was a small slide rest lathe turned by foot. In about 1865 they moved to the south side of the Yarra River, to the Yarra bank near the Spencer Street Bridge and then in about 1886 they moved to Grant Street, South Melbourne. The works employed as many as 350 workers manufacturing a wide range of marine, mining, civil engineering, railway and general manufacturing components including engines and boilers. The foundry prospered despite high wages and the lack of raw materials. It became known for high-quality products that competed successfully with any imported articles. By the time Henry retired, the foundry was one of the largest employers in Victoria and was responsible for casting the first bell and lamp-posts in the colony. The business was carried on by his sons after Henry's death. The company was responsible for fabricating the boiler for the first railway locomotive to operate in Australia, built-in 1854 by Robertson, Martin & Smith for the Melbourne and Hobson's Bay Railway Company. Also in the 1860s, they commenced manufacture of cast iron pipes for the Board of Works, which was then laying the first reticulated water supply system in Melbourne. Langlands was well known for its gold mining equipment, being the first company in Victoria to take up the manufacture of mining machinery, and it played an important role in equipping Victoria's and Australia's first mineral boom in the 1850s and 1860s. Langlands Foundry was an incubator for several engineers including Herbert Austin (1866–1941) who worked as a fitter at Langlands and went on to work on the Wolesely Shearing machine. He also founded the Austin Motor Company in 1905. Around the 1890s Langlands Foundry Co. declined and was bought up by the Austral Otis Co. in about 1893. History for Grimoldi: John Baptist Grimoldi was born in London UK. His Father was Domeneck Grimoldi, who was born in Amsterdam with an Italian Father and Dutch mother. Domeneck was also a scientific instrument maker. John B Grimoldi had served his apprenticeship to his older brother Henry Grimoldi in Brooke Street, Holburn, London and had emigrated from England to Australia to start his own meteorological and scientific instrument makers business at 81 Queens St Melbourne. He operated his business in 1862 until 1883 when it was brought by William Samuel and Charles Frederick, also well known scientific instrument makers who had emigrated to Melbourne in 1875. John Grimoldi became successful and made a number of high quality measuring instruments for the Meteorological Observatory in Melbourne. The barometer was installed at Warrnambool's old jetty and then the Breakwater as part of the Victorian Government's insistence that barometers be placed at all major Victorian ports. This coastal barometer is representative of barometers that were installed through this government scheme that began in 1866. The collecting of meteorological data was an important aspect of the Melbourne Observatory's work from its inception. Just as astronomy had an important practical role to play in navigation, timekeeping and surveying, so the meteorological service provided up to date weather information and forecasts that were essential for shipping and agriculture. As a result, instruments made by the early instrument makers of Australia was of significant importance to the development and safe trading of companies operating during the Victorian colonies early days. The provenance of this artefact is well documented and demonstrates, in particular, the importance of the barometer to the local fishermen and mariners of Warrnambool. This barometer is historically significant for its association with Langlands’ Foundry which pioneered technology in the developing colony by establishing the first ironworks in Melbourne founded in 1842. Also, it is significant for its connection to John B Grimoldi who made the barometer and thermometer housed in the cast iron case. Grimoldi, a successful meteorological and scientific instrument maker, arrived in the colony from England and established his business in 1862 becoming an instrument maker to the Melbourne Observatory. Additional significance is its completeness and for its rarity, as it is believed to be one of only two extant barometers of this type and in 1986 it was moved to Flagstaff Hill Maritime Village as part of its museum collection. Coast Barometer No. 8 is a tall, red painted cast iron pillar containing a vertical combined barometer and thermometer. Half way down in the cast iron framed glass door is a keyhole. Inside is a wooden case containing a mercury barometer at the top with a thermometer attached underneath, each with a separate glass window and a silver coloured metal backing plate. Just below the barometer, on the right-hand side, is a brass disc with a hole for a gauge key in the centre. The barometer has a silvered tin backing plate with a scale, in inches, of "27 to 31" on the right side and includes a Vernier with finer markings, which is set by turning the gauge key. The thermometer has a silvered tin backing plate with a scale on the left side of "30 to 140". Each of the scales has markings showing the units between the numbers.Inscription at the top front of the pillar reads "COAST BAROMETER" Inscribed on the bottom of the pillar is "No 8". and "LANGLANDS BROS & CO ENGINEERS MELBOURNE " The barometer backing plate is inscribed "COAST BAROMETER NO. 8, VICTORIA" and printed on the left of the scale, has "J GRIMOLDI" on the top and left of the scale, inscribed "Maker, MELBOURNE". There is an inscription on the bottom right-hand side of the thermometer scale, just above the 30 mark "FREEZING" Etched into the timber inside the case are the Roman numerals "VIII" (the number 8)flagstaff hill, warrnambool, maritime village, maritime museum, flagstaff hill maritime museum & village, shipwreck coast, great ocean road, warrnambool breakwater, coast barometer, coastal barometer, barometer, weather warning, ports and harbours, fishery barometer, sea coast barometer, austral otis co, coast barometer no. 8, henry grimoldi, henry langlands, john baptist grimoldi, langlands foundry co, meteorological instrument maker, robert langlands, scientific instrument maker, thermometer, thomas fulton -
Flagstaff Hill Maritime Museum and Village
Tool - Wood smoothing plane coffin pattern, Mathieson and Son, Late 19th to early 20th Century
In 1792 John Manners had set up a workshop making woodworking planes at 14 Saracens Lane Glasgow. He also had employed an apprentice Alexander Mathieson (1773-1851). But in the following year at Saracen's Lane, the 1841 census describes Alexander Mathieson as a master plane-maker now at 38 Saracen Lane with his son Thomas Adam working with him as a journeyman plane-maker. Presumably, Alexander must have taken over the premises and business of John Manners. Now that the business had Thomas Adam Mathieson working with his father it gradually grew and became more diversified, and it is recorded at the time by the Post-Office Glasgow Annual Directory that by 1847-1848 Alexander Mathieson was a “plane, brace, bit, auger & edge tool maker” In 1849 the firm of James & William Stewart at 65 Nicolson Street, Edinburgh was taken over and Thomas was put in charge of the business, trading under the name Thomas A. Mathieson & Co. as plane and edge-tool makers. Thomas's company went on to acquire the Edinburgh edge-tool makers “Charles & Hugh McPherson” and took over their premises in Gilmore Street. In the Edinburgh directory of 1856/7, the business is recorded as being Alexander Mathieson & Son, plane and edge-tool makers at 48 Nicolson Street and Paul's Work, Gilmore Street Edinburgh. The 1851 census Alexander is recorded as working as a tool and plane-maker employing eight men. Later that year Alexander died and his son Thomas took over the business. Under the heading of an edge-tool maker in the 1852/3 Post-Office Glasgow Annual Directory the firm is now listed as Alexander Mathieson & Son, with further entries as "turning-lathe and vice manufacturers". By the early 1850s, the business had moved to 24 Saracen Lane. The directory for 1857/8 records that the firm had moved again only a few years later to East Campbell Street, off the Gallowgate area, and that through further diversification was also manufacturing coopers' and tinmen's tools. The ten-yearly censuses report the firm's growth in 1861 stating that Thomas was a tool manufacturer employing 95 men and 30 boys; in 1871 he had 200 men working for him and in 1881 300 men. By 1899 the firm had been incorporated as Alexander Mathieson & Sons Ltd, even though only Alexander's son Thomas appears ever to have joined the firm so the company was still in his fathers' name. In September 1868 Thomas Mathieson put a notice in the newspapers of the Sheffield & Rotherham Independent and the Sheffield Daily Telegraph stating that his firm had used the trade-mark of a crescent and star "for some time" and that "using or imitating the Mark would be proceeded against for infringement". The firm had acquired its interest in the crescent-and-star mark from the heirs of Charles Pickslay, the Sheffield cutler who had registered it with the Cutlers' Company in 1833 and had died in 1852. The year 1868 seems also to be the one in which the name Saracen Tool Works was first adopted; not only does it figure at the foot of the notice in the Sheffield press, it also makes its first appearance in the firm's entry in the Post-Office Glasgow Annual Directory in the 1868/9 edition. As Thomas Mathieson's business grew, so too did his involvement in local public life and philanthropy. One of the representatives of the third ward on the town council of Glasgow, he became a river bailie in 1868, a magistrate in 1870 and a preceptor of Hutcheson's Hospital in 1878. He had a passion for books and was an "ardent Ruskinian". He served on the committee handling the bequest for the setting up of the Mitchell Library in Glasgow. When he died at Coulter Maynes near Biggar in 1899, he left an estate worth £142,764. Company's later years: Both Thomas's sons, James Harper and Thomas Ogilvie were involved in the continuing life of the firm. James followed in his father's footsteps in becoming a local public figure. He was appointed Deputy Lieutenant of the County of the City of Glasgow and was made a deacon of the Incorporation of the Hammermen of Glasgow in 1919. His brother Thomas Ogilvie was recorded as tool manufacturer and employer in the 1911 census. Thomas Ogilvie's son Thomas Alastair Sutherland Ogilvie Mathieson was born in 1908 took a rather different approach to engineering, however, by becoming a racing driver. In 1947 he wed the French film actress Mila Parély. The firm had won many awards at world fairs for their goods. At the Great Exhibition, London, 1851. Prize medal for joiners' tools in the class of Cutlery & Edge Tools, Great London Exposition, 1862. Prize medal honoris causa. International Exhibition, Melbourne, 1880. Gold medal International Exhibition of Industry, Science and Art, Edinburgh, 1886. Prize medalThe firm of Alexander Mathieson & Son was one of the leading makers of hand tools in Scotland. Its success went hand in hand with the growth of the shipbuilding industries on the Firth of Clyde in the nineteenth century and the emergence of Glasgow as the "second city of the Empire". It also reflected the firm's skill in responding to an unprecedented demand for quality tools by shipyards, cooperages and other industries, both locally and far and wide.Smoothing Plane coffin type reinforcing screws in body complete with iron and wedge Maker Alex Mathieson and Son flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village -
Flagstaff Hill Maritime Museum and Village
Domestic object - Can Opener, Bottle Opener & Corkscrew
It took 15 years to invent the can. It took 100 more to invent a standard way to open it. In the 19th century, decades after the invention of canning, there were virtually no can openers. Canned food, such as sardines, came with its own "key" to peel back the tin lid. Birth of the can One of the oddest things about the can opener is that the can predates it by almost 150 years. Though common today, cans were once military-grade technology. In 1795, Napoleon, to whom the phrase "an army marches on its stomach" is attributed, offered 12,000 francs to anyone who could find a way to preserve food. Without any knowledge of bacteria or their role in food spoilage, scientists didn't even know where to begin. It took 15 years before a chef named Nicholas Appert claimed the prize after successfully jarring food. Soon after that, his countryman Philippe de Girard came up with a variant on Appert's method—metal tins—and sold the idea to the British. Spoiled food, and the sickness it caused, was a widespread problem. The public would have benefited from canned food, but for decades cans were almost exclusively for the army and the navy. The canning process, with its hours of boiling and steaming, its scrupulous cleanliness, its heated metal, and its need for a great deal of disposable material, made canned food far too expensive for anyone but the military. No can openers were needed or even possible. The metal of early cans was too thick to make openers practical. Soldiers and sailors had plenty of sharp objects on hand and made ample use of them when they wanted to eat. During the 19th century, the process of canning was refined and mechanised, and the metal wall of the average can slimmed down enough that a civilian could get it open—if that civilian had the right tool. No one had that tool yet, so early cans had to open themselves. In other words, they came with built-in openers. The result was a confusing but pleasing free-for-all, in terms of product engineering. Each type of food came with its own kind of can, and each kind of can came with its own kind of opener. Tinned fish and meat were often sold in rectangular cans. These cans were fitted with a "key" that would roll down the top of the can. Coffee, beans, and other types of meat were packaged in cylinders with metal strips that could be peeled back with their own kinds of built-in keys. Cans of milk, which didn't need to be completely opened, came with puncture devices. As tinned food became more common, its containers became more regular. A nice cylindrical can became the norm, and, as these cans filled kitchens, more engineers put their minds to finding a convenient way to open all of them. The first standalone can opener worked on a simple principle: point, stab, and pull. From the mid-19th century to the end of World War I, the typical can opener looked roughly like a wrench, if the lower 'jaw' of the wrench were replaced with a blade. People used the blade to puncture the top of the can near its edge, push the upper jaw against the side of the can, and drag the blade through the metal along the rim. Because meat was the first and most popular canned substance, these can openers were often shaped to look like cows and given the nickname 'bully beef can openers'. The bully beef can opener, popular in the mid-19th century, resulted in many lost fingers. Later, a corkscrew was added that was seated in the handle, and could be pulled out for use. Bully beef can openers were so common, effective, and sturdy that they are still frequently available on collectors' sites. Some are advertised as “still working,” and every last one of them is, without a doubt, soaked in the blood of our ancestors. Dragging a sharp blade along the edge of a can is certain to cause injury sooner or later. So once people got a reliable can shape and a reliable way to get the can open, the search was on for a reliable way to get a can open without the possibility of losing a finger. The answer came in 1925, from the Star Can Opener Company of San Francisco. This is probably the first can opener that resembles the one people have in their kitchens today. Instead of using a blade to pry open a metal can, buyers could clamp the edge of the can between two wheels and twist the handle of one of the wheels to move the blade around the lip. The Star can openers weren't perfect. Compared to the bully beef model, they were flimsy and breakable, but they probably prevented a few injuries. Six short years after the Star model came to market, the first electric can opener was invented. It was patented in 1931 by the Bunker Clancey Company of Kansas City, who had already been sued by the Star Can Opener Company for trying sell a double-wheeled can opener like the Star model (the case was dismissed). The electric can opener must have seemed like the wave of the future and a sure-fire seller, but it proved to be too far ahead of its time. In 1931 not that many households had electricity, and those that did weren't interested in buying can openers. The Bunker Clancey Company was subsequently bought by the Rival Company, which still makes small appliances like can openers today. It took another 25 years for electrically powered can openers to become practical. In the 1950s, Walter Hess Bodle and his daughter, Elizabeth Bodle, developed an electric can opener in the family garage. Walter came up with the opener's blades and motor, and Elizabeth sculpted the outside. Their can opener was a free-standing unit that could sit on the kitchen counter. The Udico brand of the Union Die Casting Company put it on the market in time for Christmas in 1956 and had great success with it. Over the next few years it came out in different styles and colours, and, like the bully beef can opener, has become a collector's item. Also like the bully beef model, Udico can openers often still work. They don't make 'em like they used to. Although there have been some design changes and refinements over the last sixty years, there have yet to be any more leaps forward in can opener technology. If you're resentfully opening a can, you are almost certainly doing it using the Star design, manually forcing the can between two wheels, or the Bodle design, clamping the can into a free-standing electrical opener. Whether or not you enjoy your holiday meals, at least you can be happy that you are not getting poisoned by your own food or cutting open your hand with the blade you use to get at it. That's something, right?The can opener, Bottle opener and the corkscrew are still very important and essential items in most kitchens.Metal can opener, chromed, with bottle opener, and a corkscrew seated in the handle.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, canning, can opener, corkscrew, bottle opener, kitchen equipment -
Flagstaff Hill Maritime Museum and Village
Domestic object - Can Opener
It took 15 years to invent the can. It took 100 more to invent a standard way to open it. In the 19th century, decades after the invention of canning, there were virtually no can openers. Canned food, such as sardines, came with its own "key" to peel back the tin lid. Birth of the can One of the oddest things about the can opener is that the can predates it by almost 150 years. Though common today, cans were once military-grade technology. In 1795, Napoleon, to whom the phrase "an army marches on its stomach" is attributed, offered 12,000 francs to anyone who could find a way to preserve food. Without any knowledge of bacteria or their role in food spoilage, scientists didn't even know where to begin. It took 15 years before a chef named Nicholas Appert claimed the prize after successfully jarring food. Soon after that, his countryman Philippe de Girard came up with a variant on Appert's method—metal tins—and sold the idea to the British. Spoiled food, and the sickness it caused, was a widespread problem. The public would have benefited from canned food, but for decades cans were almost exclusively for the army and the navy. The canning process, with its hours of boiling and steaming, its scrupulous cleanliness, its heated metal, and its need for a great deal of disposable material, made canned food far too expensive for anyone but the military. No can openers were needed or even possible. The metal of early cans was too thick to make openers practical. Soldiers and sailors had plenty of sharp objects on hand and made ample use of them when they wanted to eat. During the 19th century, the process of canning was refined and mechanised, and the metal wall of the average can slimmed down enough that a civilian could get it open—if that civilian had the right tool. No one had that tool yet, so early cans had to open themselves. In other words, they came with built-in openers. The result was a confusing but pleasing free-for-all, in terms of product engineering. Each type of food came with its own kind of can, and each kind of can came with its own kind of opener. Tinned fish and meat were often sold in rectangular cans. These cans were fitted with a "key" that would roll down the top of the can. Coffee, beans, and other types of meat were packaged in cylinders with metal strips that could be peeled back with their own kinds of built-in keys. Cans of milk, which didn't need to be completely opened, came with puncture devices. As tinned food became more common, its containers became more regular. A nice cylindrical can became the norm, and, as these cans filled kitchens, more engineers put their minds to finding a convenient way to open all of them. The first standalone can opener worked on a simple principle: point, stab, and pull. From the mid-19th century to the end of World War I, the typical can opener looked roughly like a wrench, if the lower 'jaw' of the wrench were replaced with a blade. People used the blade to puncture the top of the can near its edge, push the upper jaw against the side of the can, and drag the blade through the metal along the rim. Because meat was the first and most popular canned substance, these can openers were often shaped to look like cows and given the nickname 'bully beef can openers'. The bully beef can opener, popular in the mid-19th century, resulted in many lost fingers. Bully beef can openers were so common, effective, and sturdy that they are still frequently available on collectors' sites. Some are advertised as “still working,” and every last one of them is, without a doubt, soaked in the blood of our ancestors. Dragging a sharp blade along the edge of a can is certain to cause injury sooner or later. So once people got a reliable can shape and a reliable way to get the can open, the search was on for a reliable way to get a can open without the possibility of losing a finger. The answer came in 1925, from the Star Can Opener Company of San Francisco. This is probably the first can opener that resembles the one people have in their kitchens today. Instead of using a blade to pry open a metal can, buyers could clamp the edge of the can between two wheels and twist the handle of one of the wheels to move the blade around the lip. The Star can openers weren't perfect. Compared to the bully beef model, they were flimsy and breakable, but they probably prevented a few injuries. Six short years after the Star model came to market, the first electric can opener was invented. It was patented in 1931 by the Bunker Clancey Company of Kansas City, who had already been sued by the Star Can Opener Company for trying sell a double-wheeled can opener like the Star model (the case was dismissed). The electric can opener must have seemed like the wave of the future and a sure-fire seller, but it proved to be too far ahead of its time. In 1931 not that many households had electricity, and those that did weren't interested in buying can openers. The Bunker Clancey Company was subsequently bought by the Rival Company, which still makes small appliances like can openers today. It took another 25 years for electrically powered can openers to become practical. In the 1950s, Walter Hess Bodle and his daughter, Elizabeth Bodle, developed an electric can opener in the family garage. Walter came up with the opener's blades and motor, and Elizabeth sculpted the outside. Their can opener was a free-standing unit that could sit on the kitchen counter. The Udico brand of the Union Die Casting Company put it on the market in time for Christmas in 1956 and had great success with it. Over the next few years it came out in different styles and colours, and, like the bully beef can opener, has become a collector's item. Also like the bully beef model, Udico can openers often still work. They don't make 'em like they used to. Although there have been some design changes and refinements over the last sixty years, there have yet to be any more leaps forward in can opener technology. If you're resentfully opening a can, you are almost certainly doing it using the Star design, manually forcing the can between two wheels, or the Bodle design, clamping the can into a free-standing electrical opener. Whether or not you enjoy your holiday meals, at least you can be happy that you are not getting poisoned by your own food or cutting open your hand with the blade you use to get at it. That's something, right?The can opener is still a very important and essential item in most kitchens.Can opener, right handed, metal, upper blade section serrated, inscription 'Peerless Pat.Feb 11-90'.Peerless Pat.Feb 11-90flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, cannning, can opener, kitchen equipment -
Flagstaff Hill Maritime Museum and Village
Tool - Rabbet Plane, Mathieson and Son, Late 19th to early 20th Century
In 1792 John Manners had set up a workshop making woodworking planes at 14 Saracens Lane Glasgow. He also had employed an apprentice Alexander Mathieson (1773-1851). But in the following year at Saracen's Lane, the 1841 census describes Alexander Mathieson as a master plane-maker now at 38 Saracen Lane with his son Thomas Adam working with him as a journeyman plane-maker. Presumably, Alexander must have taken over the premises and business of John Manners. Now that the business had Thomas Adam Mathieson working with his father it gradually grew and became more diversified, and it is recorded at the time by the Post-Office Glasgow Annual Directory that by 1847-1848 Alexander Mathieson was a “plane, brace, bit, auger & edge tool maker” In 1849 the firm of James & William Stewart at 65 Nicolson Street, Edinburgh was taken over and Thomas was put in charge of the business, trading under the name Thomas A. Mathieson & Co. as plane and edge-tool makers. Thomas's company went on to acquire the Edinburgh edge-tool makers “Charles & Hugh McPherson” and took over their premises in Gilmore Street. In the Edinburgh directory of 1856/7, the business is recorded as being Alexander Mathieson & Son, plane and edge-tool makers at 48 Nicolson Street and Paul's Work, Gilmore Street Edinburgh. The 1851 census Alexander is recorded as working as a tool and plane-maker employing eight men. Later that year Alexander died and his son Thomas took over the business. Under the heading of an edge-tool maker in the 1852/3 Post-Office Glasgow Annual Directory the firm is now listed as Alexander Mathieson & Son, with further entries as "turning-lathe and vice manufacturers". By the early 1850s, the business had moved to 24 Saracen Lane. The directory for 1857/8 records that the firm had moved again only a few years later to East Campbell Street, off the Gallowgate area, and that through further diversification was also manufacturing coopers' and tinmen's tools. The ten-yearly censuses report the firm's growth in 1861 stating that Thomas was a tool manufacturer employing 95 men and 30 boys; in 1871 he had 200 men working for him and in 1881 300 men. By 1899 the firm had been incorporated as Alexander Mathieson & Sons Ltd, even though only Alexander's son Thomas appears ever to have joined the firm so the company was still in his fathers' name. In September 1868 Thomas Mathieson put a notice in the newspapers of the Sheffield & Rotherham Independent and the Sheffield Daily Telegraph stating that his firm had used the trade-mark of a crescent and star "for some time" and that "using or imitating the Mark would be proceeded against for infringement". The firm had acquired its interest in the crescent-and-star mark from the heirs of Charles Pickslay, the Sheffield cutler who had registered it with the Cutlers' Company in 1833 and had died in 1852. The year 1868 seems also to be the one in which the name Saracen Tool Works was first adopted; not only does it figure at the foot of the notice in the Sheffield press, it also makes its first appearance in the firm's entry in the Post-Office Glasgow Annual Directory in the 1868/9 edition. As Thomas Mathieson's business grew, so too did his involvement in local public life and philanthropy. One of the representatives of the third ward on the town council of Glasgow, he became a river bailie in 1868, a magistrate in 1870 and a preceptor of Hutcheson's Hospital in 1878. He had a passion for books and was an "ardent Ruskinian". He served on the committee handling the bequest for the setting up of the Mitchell Library in Glasgow. When he died at Coulter Maynes near Biggar in 1899, he left an estate worth £142,764. Company's later years: Both Thomas's sons, James Harper and Thomas Ogilvie were involved in the continuing life of the firm. James followed in his father's footsteps in becoming a local public figure. He was appointed Deputy Lieutenant of the County of the City of Glasgow and was made a deacon of the Incorporation of the Hammermen of Glasgow in 1919. His brother Thomas Ogilvie was recorded as tool manufacturer and employer in the 1911 census. Thomas Ogilvie's son Thomas Alastair Sutherland Ogilvie Mathieson was born in 1908 took a rather different approach to engineering, however, by becoming a racing driver. In 1947 he wed the French film actress Mila Parély. The firm had won many awards at world fairs for their goods. At the Great Exhibition, London, 1851. Prize medal for joiners' tools in the class of Cutlery & Edge Tools, Great London Exposition, 1862. Prize medal honoris causa. International Exhibition, Melbourne, 1880. Gold medal International Exhibition of Industry, Science and Art, Edinburgh, 1886. Prize medalThe firm of Alexander Mathieson & Son was one of the leading makers of hand tools in Scotland. Its success went hand in hand with the growth of the shipbuilding industries on the Firth of Clyde in the nineteenth century and the emergence of Glasgow as the "second city of the Empire". It also reflected the firm's skill in responding to an unprecedented demand for quality tools by shipyards, cooperages and other industries, both locally and far and wide.Rabbet plane with a flat base. The blade wedge is inserted but without a blade. Made by A Mathieson and Son.Inscription "Alex Mathieson and Son" no longer visibleflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, cabinet makers tools, carpenders tools, wood planes, rabbeting plane, window making, tools, wood working, hand tool -
Federation University Historical Collection
Book, The Economics of Mining (Non-Ferrous Metals), 1938, 1938
The book was used by Charles Bacon who studied at the University of Nevada in the late 1930s/early 1940s. Bacon worked at Bunker Hill Mines and Kellogg Idaho, before arriving in Australian in 1951. He worked for CN Myers, a company involved with paper converting. CN Myers was a family business (on Charles Bacon's maternal line). The Mackay School of Mines, Nevada was established in 1908. At the time of writing this mook T.J. Hoover was Professor of Mining and Metallurgy and Dean of the School of Engineering at Stanford University. Theodore Jesse Hoover, brother of the 31st President of the United States, was born in West Branch, Iowa, on January 28, 1871. He attended Stanford and received the Bachelor of Arts degree in Geology and Mining in 1901. Following graduation his professional career started with the position of assayer for the Keystone Consolidated Mining Company. After one year, he became assistant manager for the Standard Consolidated Mine, and a year later he was promoted to manager of the operation. In 1907 Hoover went to London as general manager of Minerals Separation, Ltd. This company was developing the froth flotation process for recovering minerals from ores. Hoover took an active part in the development of the flotation concentration process and authored one of the first books on the concentration of ores by flotation. After four years with Minerals Separation, Ltd., Hoover entered private practice as a consulting mining and metallurgical engineer with offices in London and in San Francisco. He was very successful and held positions of consulting engineer, managing director, director, and president of many mining companies in America, Europe, Asia, Africa, and Australia. He returned to Stanford in 1919 as Professor of Mining and Metallurgy and Executive Head of the Department of Mining and Metallurgy. His experience and ability in organization made him a natural leader. He was influential in the formation of the School of Engineering at Stanford. The School was formed in 1925 and he was made dean, a position he held until his retirement in 1936. As dean of engineering, he promoted a broad fundamental training program for undergraduate engineering students. Under his guidance, emphasis was placed upon graduate work and he was responsible for developing strong graduate engineering curricula at Stanford. While dean he continued teaching and his course, "The Economics of Mining," developed into a book which was published in 1933. He became interested in the functions of engineers and, with Professor Fish, wrote a book entitled "The Engineering Profession" which was published in 1940 and revised in 1950. In addition to his academic activities he was generous in his hospitality. Faculty and students alike enjoyed the annual field day and barbecue at his Rancho del Oso, near Santa Cruz. He was widely read and had a lively interest in all the things he encountered. He speculated on the antiquity of man and man's early production processes. To verify an idea regarding flint tools, he studied their shapes and became proficient in making arrow heads. He was also interested in wild life, and was one of the founding members of the Cooper Ornithological Society. (http://engineering.stanford.edu/about/bio-hoover) Blue hard covered book of 547 pages including an index. Contents include mine valuation (sampling, ore deposits, ore reserves, financial provisions, sale of mineral product, metal prices, reports) and Mining Organization (Co-operative effort, Mining Companies, Promoting Mining Enterprises, fluctuations of share prices, valuation of mining shares, fakes and fallacies, the mining Engineer and the law) and Mine Management (Organization of staff, mine manager, efficiency, industrial relations, training and discipline, safety). Inside front cover 'Charles Bacon Mackay School of Mines"charles bacon, mining engineering, metallurgy, university of nevada, mackay school of mines, stanford, bacon, mining, economics, divining, theodore hoover -
Federation University Historical Collection
Book, Engineering: an illustrated weekly journal, 1884 (exact)
... . Petersburg, by the Brjonsk iron works) etc. machinery tools engines ...William Henry Maw was a British civil engineer and astronomer. He was born in 1838 and died in 1924 at eighty-five years. Maw worked as an assistant at the workshops of the Eastern Counties Railway before he became a draughtsman in the design office. He designed the first outside cylinder locomotive for use in India. In 1865 he founded the journal Engineering and continued to be an editor for the rest of his life. Maw became a consulting engineer. He was president of the Civil and Mechanical Engineers' Society, the Institution of Mechanical Engineers and the Institution of Civil Engineers. This book contains a wide range of articles and reviews related to industrial developments such as rail mill engines at the Dowlais iron works (constructed by Messrs. Kitson and Co., engineers, Leeds), cable tramway, Clay-street, San Francisco, U.S.A., road and railway bridge over the river Dnieper, at Jekaterinoslow, Russia (constructed from the designs of Professor N. Belelubsky, St. Petersburg, by the Brjonsk iron works) etc. A book with blue large hard cover. Title and publication date are written on spine in gold. Illustrations (fig., plates, plans, diagrams) in B/W. Includes collection of the engineering weekly journal vol. xxxix-from January to June 1885. This book contains a wide range of articles and reviews related to industrial developments. Page no.712.machinery, tools, engines, engineering, railroad, w h maw, rail, mill engines, cable tramway, clay street, dowlais iron works, twin screw engines, royal italian torpedo ram vessel, messrs r and, w hawthorn engineers, electro plated carriage, the tehuantepec ship railway, otis elevator -
Federation University Historical Collection
Book - Booklet, The Institute of Physics Handbook: Exhibition of Scientific Instruments and Apparatus, 08/1960
The Exhibition of Scientific Instruments and apparatus was set up to show the professional scientist the latest tools of trade and glimpses of future developments in the field of instrumentation .Cream soft covered book of 198 pages relating to an exhibition of scientific instruments and apparatus held at the School of Chemistry, University of Sydney. Exhibitors in the exhibition include: Advance components, Airmec, Akashi, Aladdin Industries, Amalgamated Wireless, Applied Physics Corporation, Ardente, Austral Engineering Supplies Pty Ltd, Avo Limited, Baird Atomic, Baker, Baldwin Instrument Co., B. and Relays, Barnstead Still and Steriliser Co., Beckman, Bender, Boonton Radio Corporation, Bosch, British Electric Resistence, British Physical Laboratories, Buccho, Bundenberg, Buehler, Bureau of Analysed Samples Ltd, Business Equipment Pty Ltd, Cambridge Instrument Co, Casella, Chamberlain and Hookham, Cossar, Cooke Troughton, Counting Instruments Co, CSIRO, Dawe Instruments, Difco, Duff and Macintosh, Dumont, Dupree, Dynatron Rodio Ltd, East Lancashire Chemical Co., Edwards High Vacuum Ltd, Eletircal Equipment Australia, Electronic Industries, Electroscientific Industries, Electrothermal Heating, Elema Schonanda, EMI, Englehard, Epprect, ERD Engineering, Ericsson Telephones, Esdaile, Ether Ltd, Evershed and Vignoles, Faraday Electronic Instruments, Federal Products, Filtron, Fischer, Fluke, Foot, Fortiphone, PX Fox, Foxall Instruments, Gambrell Bros, Gardener and Salmon, Garlick, Gelman , Gossen, Griffen and george, Gurr, Guthrie. Hasler, Headland Engineering Developments, Heraeus, Hersey Sparling Meter Co, Hewlett Packard, Heyneco, Hilger and Watts, Instron Engineering, Institute of Physics, Intermetal, Internation Resistance Corporation, Jacoby Mitchell and Co, Janke and Kinkel, JENA-er Glasswerke Schott and Gen, Keithly Instruments, Kelvin and Hughes, Kent, Kipp and Zonene, Kovo, Krautkramer, Kruss, Lambrecht, Land Pyrometers Leeds and Northrup, Leeds Meter Co, Leybold, Liddle and Epstein, Long Industrial Equipment, macdougall, McKinlay Fletcher, McLellan, Marconi Instruments, Masruements, Metrimpex, Metrohn, Metron, Mettler, Mica Corporation, Minneapolis Honeywell Regulator Company, Moisture Regulator, Morganite, Morris, Moseley, Muirhead, Mullard- Australia, Nagard, National Instrument Co, National Standards Laboratory, Negretti and Zamba, Nira, Northeastern Engineering, Nuclear Equipment Ltd, Ronald payne, Philbrick, Philips, Physik Instruments, Pincombe, Precision Tools and Instrument Co., Printed Electronics, Pye, Quicfit, Radion Corporation of Amerixa, Radio Frequency Laboratories, Radiometer, Rank Cintel, record Electric Co., Reichert Optische Werke, Rhode and Schwarz, Ridsdales and Co, Rocol, Rotameter, Rototherm, Rowe, George Sample, Santon, Sanders, Sartorious-Werke, Sauter August, Schneider, Scruttons, SEFRAM, Selby, Sensitive Research, Servomax Controls, shckman, Shimadzu, Siemens, Simpson, Sodeco, Soiltest, Solartorn, Southern Instruments, Albert Speck, Stanford X-Ray, Sunvic Controls, Sweda, Sydney County Council, Tamson, techne Cambridge, Tektronix, Telefunken, Telequipment, Andrew Thom, Thompson J, Langha,, Thronethwaite, Tinsley, Tokyo Opptical co., Townsen and Mercer, Treacerlab, Tylors, Unicam, Union OPtical Co, Varian Associated, Venner Electronics, Vidler Thornethwaite Engineering, Crosweller, Wandel and Golterman, Watson Victor Limited, Wayne Kerr Laboratories, waveforms, West Instruments, Herman Wetzer, Wild Instrument Supply Co, Yokagawa Electrical Works, Carl Seiss, Zwick.science, instruments, apparatus, scientific objects -
Flagstaff Hill Maritime Museum and Village
Machine - Treadle Lathe, 1920-1923
The lathe-making business incorporated in 1902 as Drummond Bros Ltd originated in the fertile mind of Mr Arthur Drummond, said to have been living at that time at Pinks Hill, on the southern edge of Broad Street Common, west of Guildford. Mr Drummond, whose accomplishments included several pictures hung in the Royal Academy, was unable to find a lathe suitable for use in model engineering. In 1896 he designed for himself a ‘small centre lathe … which had a compound slide rest with feed-screws and adjustable slides’. He also designed and built ‘lathes of 4.5 inch and 5 inch centre height, which had beds of a special form whereby the use of a gap piece was eliminated but the advantages of a gap-bed lathe were retained’. Assisted by his brother, Mr Frank Drummond, who had served an apprenticeship to an engineering firm at Tunbridge Wells, the first lathes were made in a workshop adjoining Arthur Drummond’s house. The demand that speedily built up led to the decision to form a company and manufacture the lathes for sale commercially. Land was acquired nearby, at Rydes Hill, and the first factory built. The enterprise was a success, and the company quickly established ‘a high reputation in this country and abroad for multi-tool and copying lathes, and gear-cutting machines’. Other lathes were added to the range, including the first of the ’round bed’ machines for which the firm became widely known. A Drummond 3.5 inch lathe was among the equipment of Captain Scott’s 1912 expedition to the South Pole, and large numbers of 3.5 inch and 4 inch designs were exported to Australia, Canada and India. By the outbreak of war in 1914, 5 inch, 6 inch and 7 inch screw cutting lathes, arranged for power drive, were on sale. Large orders were received from the government for 3.5 inch lathes, for use in destroyers and submarines, and 5 inch lathes for the mechanised section of the Army Service Corps. The latter were used in mobile workshops. The factory worked night and day to supply the forces’ needs, until production was disrupted by a fire which destroyed a large part of the works in May 1915. As soon as rebuilding was complete work restarted. At the end of the war the entire production was being taken by the Government departments, a special feature being a precision screw lathe, bought by the Ministry of Munitions in 1918. Between the wars Drummond Bros Ltd introduced new machines for the motor vehicle, and later the aircraft industry, and the works were extended on many occasions to fulfill the increasing orders. The Maxicut multi-tool lathe (1925), designed for high-production turning operations, was one of the first machines of this type to be built in England. It was followed (1928) by an hydraulic version for turning gear blanks, and similar work. Further developments provided machines which, during the Second World War, turned all the crankshafts and propeller shafts for Bristol engines. Others, ordered by the Ministry of Supply were employed in turning shells, and many other specific needs of vehicle and aircraft manufacture were catered for by new types of Drummond lathes. Production of the small centre lathes ceased during the war when the company needed to concentrate on building multi-tool lathes and gear shapers. After the war a completely new Maxicut range was introduced, replacing the older versions, and fully automatic. The types were continually developed, and new versions manufactured until the end of the company’s life in 1980. The disappearance from the scene of Mr Arthur Drummond in 1946, and the end of the company’s autonomous existence in 1953 when the company was acquired by William Asquith Ltd, which was in turn bought by Staveley in 1966, meant that the factory at Rydes Hill became one – albeit very effective – part of a large national engineering company. Achievements at the Guildford works during its last years included the development of automated Maxicut gear-shapers in what was ‘probably the most fully automated gear shop in the country’, while a machine from Guildford was sent to the Osaka Fair in 1962. In 1963 an agreement was signed with Hindustan Machine Tools for the manufacture of Maxicut gear-shapers in state owned factories in Bangalore and Chandigarh. During 1963 the two largest multi-tool lathes ever made in the UK were installed in Ambrose Shardlow’s works in Sheffield for handling cranks up to 14 foot long. In 1976 Drummond lathes were included in Staveley’s £14,000,000 installation in Moscow of an automated production line for Zil motor cars. Up to the end invention continued at Guildford: a new Drummond Multi-turn memory-controlled machine was shown at the International Machine Tool Exhibition in 1977. This could not save the works from the pressures of the late 1970s, and Staveley Industries closed its Guildford site in 1980.An early example of a lathe that was designed primarily for the hobbyist model maker. It is in good condition and sought today by collectors as many of it's attributes were innovative at the time and lead to further development and incorporation of some of its features into more industrial models of production machinery. Lathe, round bed, treadle powered lathe, Drummond Type A, Serial number and maker's inscription. 1920-1923, Made by Drummond Brothers in Guildford, Surrey, England. Lathe is complete with Chuck, Tool post and Tail Stock in situ (30 extra parts)"MADE BY DRUMMOND BROTHERS LIMITED - PATENT TEES - RYDE'S HILL n GUILDFORD SURREY", "Serial Number 01470," "L44" or "L45 " flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, lathe 1920-1923, round bed lathe, treadle lathe, drummond type a, guildford surrey, drummond brothers guildford surrey england, tread'e -
Flagstaff Hill Maritime Museum and Village
Tool - Smoothing or Jack Plane, Alexander Mathieson, Late 19th to early 20th century
In 1792 John Manners had set up a workshop making woodworking planes at 14 Saracens Lane Glasgow. He also had employed an apprentice Alexander Mathieson (1773-1851). But in the following year at Saracen's Lane, the 1841 census describes Alexander Mathieson as a master plane-maker now at 38 Saracen Lane with his son Thomas Adam working with him as a journeyman plane-maker. Presumably, Alexander must have taken over the premises and business of John Manners. Now that the business had Thomas Adam Mathieson working with his father it gradually grew and became more diversified, and it is recorded at the time by the Post-Office Glasgow Annual Directory that by 1847-1848 Alexander Mathieson was a “plane, brace, bit, auger & edge tool maker” In 1849 the firm of James & William Stewart at 65 Nicolson Street, Edinburgh was taken over and Thomas was put in charge of the business, trading under the name Thomas A. Mathieson & Co. as plane and edge-tool makers. Thomas's company went on to acquire the Edinburgh edge-tool makers “Charles & Hugh McPherson” and took over their premises in Gilmore Street. In the Edinburgh directory of 1856/7, the business is recorded as being Alexander Mathieson & Son, plane and edge-tool makers at 48 Nicolson Street and Paul's Work, Gilmore Street Edinburgh. The 1851 census Alexander is recorded as working as a tool and plane-maker employing eight men. Later that year Alexander died and his son Thomas took over the business. Under the heading of an edge-tool maker in the 1852/3 Post-Office Glasgow Annual Directory the firm is now listed as Alexander Mathieson & Son, with further entries as "turning-lathe and vice manufacturers". By the early 1850s, the business had moved to 24 Saracen Lane. The directory for 1857/8 records that the firm had moved again only a few years later to East Campbell Street, off the Gallowgate area, and that through further diversification was also manufacturing coopers' and tinmen's tools. The ten-yearly censuses report the firm's growth in 1861 stating that Thomas was a tool manufacturer employing 95 men and 30 boys; in 1871 he had 200 men working for him and in 1881 300 men. By 1899 the firm had been incorporated as Alexander Mathieson & Sons Ltd, even though only Alexander's son Thomas appears ever to have joined the firm so the company was still in his fathers' name. In September 1868 Thomas Mathieson put a notice in the newspapers of the Sheffield & Rotherham Independent and the Sheffield Daily Telegraph stating that his firm had used the trade-mark of a crescent and star "for some time" and that "using or imitating the Mark would be proceeded against for infringement". The firm had acquired its interest in the crescent-and-star mark from the heirs of Charles Pickslay, the Sheffield cutler who had registered it with the Cutlers' Company in 1833 and had died in 1852. The year 1868 seems also to be the one in which the name Saracen Tool Works was first adopted; not only does it figure at the foot of the notice in the Sheffield press, it also makes its first appearance in the firm's entry in the Post-Office Glasgow Annual Directory in the 1868/9 edition. As Thomas Mathieson's business grew, so too did his involvement in local public life and philanthropy. One of the representatives of the third ward on the town council of Glasgow, he became a river bailie in 1868, a magistrate in 1870 and a preceptor of Hutcheson's Hospital in 1878. He had a passion for books and was an "ardent Ruskinian". He served on the committee handling the bequest for the setting up of the Mitchell Library in Glasgow. When he died at Coulter Maynes near Biggar in 1899, he left an estate worth £142,764. Company's later years: Both Thomas's sons, James Harper and Thomas Ogilvie were involved in the continuing life of the firm. James followed in his father's footsteps in becoming a local public figure. He was appointed Deputy Lieutenant of the County of the City of Glasgow and was made a deacon of the Incorporation of the Hammermen of Glasgow in 1919. His brother Thomas Ogilvie was recorded as tool manufacturer and employer in the 1911 census. Thomas Ogilvie's son Thomas Alastair Sutherland Ogilvie Mathieson was born in 1908 took a rather different approach to engineering, however, by becoming a racing driver. In 1947 he wed the French film actress Mila Parély. The firm had won many awards at world fairs for their goods. At the Great Exhibition, London, 1851. Prize medal for joiners' tools in the class of Cutlery & Edge Tools, Great London Exposition, 1862. Prize medal honoris causa. International Exhibition, Melbourne, 1880. Gold medal International Exhibition of Industry, Science and Art, Edinburgh, 1886. Prize medalThe firm of Alexander Mathieson & Sons was one of the leading makers of hand tools in Scotland. Its success went hand in hand with the growth of the shipbuilding industries on the Firth of Clyde in the nineteenth century and the emergence of Glasgow as the "second city of the Empire". It also reflected the firm's skill in responding to an unprecedented demand for quality tools by shipyards, cooperages and other industries, both locally and far and wide.Jack or Smoothing Plane Size of iron 2 1/4 inches wide.Has GN inside a W stamped for (A Mathieson & Son Glassgow.)flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, jack plane -
Flagstaff Hill Maritime Museum and Village
Tool - Fillister Wood Plane, A Mathieson and Son, Mid to late 19th Century
The British wooden sash fillister plane is an old plane designed for rebate or rabbet work on sash windows to cut a groove or channel to allow a window to move up and down. The function and design of the sash fillister plane is a cross between the wooden moving fillister plane and the wooden plough plane. The wooden sash fillister plane is equipped with a fence, depth stop, nicker, skewed cutter and wedge. The plane has a hardwood main body, a hardwood moving fence and usually a variety of brass decorative and functional parts. The body and fence are nearly always made from beech as this was the hardwood of choice at the time these plane were made due to price and availability. Sometimes these planes are seen in other types of wood with the best examples being made from boxwood, rosewood and also there are some ebony fillister planes. Manufacturer: In 1792 John Manners had set up a workshop making woodworking planes at 14 Saracens Lane Glasgow. He also had employed an apprentice Alexander Mathieson (1773-1851). But in the following year at Saracen's Lane, the 1841 census describes Alexander Mathieson as a master plane-maker now at 38 Saracen Lane with his son Thomas Adam working with him as a journeyman plane-maker. Presumably, Alexander must have taken over the premises and business of John Manners. Now that the business had Thomas Adam Mathieson working with his father it gradually grew and became more diversified, and it is recorded at the time by the Post-Office Glasgow Annual Directory that by 1847-1848 Alexander Mathieson was a “plane, brace, bit, auger & edge tool maker” In 1849 the firm of James & William Stewart at 65 Nicolson Street, Edinburgh was taken over and Thomas was put in charge of the business, trading under the name Thomas A. Mathieson & Co. as plane and edge-tool makers. Thomas's company went on to acquire the Edinburgh edge-tool makers “Charles & Hugh McPherson” and took over their premises in Gilmore Street. In the Edinburgh directory of 1856/7, the business is recorded as being Alexander Mathieson & Son, plane and edge-tool makers at 48 Nicolson Street and Paul's Work, Gilmore Street Edinburgh. The 1851 census Alexander is recorded as working as a tool and plane-maker employing eight men. Later that year Alexander died and his son Thomas took over the business. Under the heading of an edge-tool maker in the 1852/3 Post-Office Glasgow Annual Directory the firm is now listed as Alexander Mathieson & Son, with further entries as "turning-lathe and vice manufacturers". By the early 1850s, the business had moved to 24 Saracen Lane. The directory for 1857/8 records that the firm had moved again only a few years later to East Campbell Street, off the Gallowgate area, and that through further diversification was also manufacturing coopers' and tinmen's tools. The ten-yearly censuses report the firm's growth in 1861 stating that Thomas was a tool manufacturer employing 95 men and 30 boys; in 1871 he had 200 men working for him and in 1881 300 men. By 1899 the firm had been incorporated as Alexander Mathieson & Sons Ltd, even though only Alexander's son Thomas appears ever to have joined the firm so the company was still in his fathers' name. In September 1868 Thomas Mathieson put a notice in the newspapers of the Sheffield & Rotherham Independent and the Sheffield Daily Telegraph stating that his firm had used the trade-mark of a crescent and star "for some time" and that "using or imitating the Mark would be proceeded against for infringement". The firm had acquired its interest in the crescent-and-star mark from the heirs of Charles Pickslay, the Sheffield cutler who had registered it with the Cutlers' Company in 1833 and had died in 1852. The year 1868 seems also to be the one in which the name Saracen Tool Works was first adopted; not only does it figure at the foot of the notice in the Sheffield press, it also makes its first appearance in the firm's entry in the Post-Office Glasgow Annual Directory in the 1868/9 edition. As Thomas Mathieson's business grew, so too did his involvement in local public life and philanthropy. One of the representatives of the third ward on the town council of Glasgow, he became a river bailie in 1868, a magistrate in 1870 and a preceptor of Hutcheson's Hospital in 1878. He had a passion for books and was an "ardent Ruskinian". He served on the committee handling the bequest for the setting up of the Mitchell Library in Glasgow. When he died at Coulter Maynes near Biggar in 1899, he left an estate worth £142,764. Company's later years: Both Thomas's sons, James Harper and Thomas Ogilvie were involved in the continuing life of the firm. James followed in his father's footsteps in becoming a local public figure. He was appointed Deputy Lieutenant of the County of the City of Glasgow and was made a deacon of the Incorporation of the Hammermen of Glasgow in 1919. His brother Thomas Ogilvie was recorded as tool manufacturer and employer in the 1911 census. Thomas Ogilvie's son Thomas Alastair Sutherland Ogilvie Mathieson was born in 1908 took a rather different approach to engineering, however, by becoming a racing driver. In 1947 he wed the French film actress Mila Parély. The firm had won many awards at world fairs for their goods. At the Great Exhibition, London, 1851. Prize medal for joiners' tools in the class of Cutlery & Edge Tools, Great London Exposition, 1862. Prize medal honoris causa. International Exhibition, Melbourne, 1880. Gold medal International Exhibition of Industry, Science and Art, Edinburgh, 1886. Prize medalThe firm of Alexander Mathieson & Sons was one of the leading makers of hand tools in Scotland. Its success went hand in hand with the growth of the shipbuilding industries on the Firth of Clyde in the nineteenth century and the emergence of Glasgow as the "second city of the Empire". It also reflected the firm's skill in responding to an unprecedented demand for quality tools by shipyards, cooperages and other industries, both locally and far and wide.Sash Fillister Plane, with iron set skewed, the iron is 1 3/4 inches wide. Plane has a sliding adjusting fence, thumb screw depth stop and two knocking iron . Stamped W. Worrall, (owner) No 17. Maker A Mathieson & Sonflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, fillister sash plane, window making tool, carpenders tools, alex mathieson & sons, sash windows -
Federation University Historical Collection
Booklet - Printed Programme, Ballarat School of Mines Prize Night Programs, 1961-1975, 1960-1975
The Ballarat School of Mines Prize Night was held at the Ballarat Town Hall Trench Room from 1960-1971, the Lower Civic Hall 1972, Wendouree Municipal Hall 1973-1975. The prizes awarded were for the work done in the previous year. Guest speakers: 1960 J. Lonsdale, Production Manager, M.B. John & Hattesley Ltd. 1961 E.J. Neale, Manager Ballaarat Gas Company 1962 W.G. Smith, Director, Myer Empirium (Ballarat) Pty Limited and Member of the School of Mines Council 1963 K.C. Webb, Member of the School of Mines Council 1964 A.E. Stohr Vice-President of the School of Mines Council 1965 B.J. Nicholson, Factory Manager, Australian Timken Pty Ltd and Chairman of the Ballarat PRoductivity Group 1966 L.C. Yandell, District Inspector of Schools 1967 J.L. Trevenen, Vice-President, Victorian Automobile Chamber of Commerce 1968 A.C. Eldridge, Assistant Director of Technical Commission of Victoria 1969 W.J. Anderson, General Manager, Bendix Mintex Pty LtdS. Martin-Brown, Managing Director, Firth Cleveland Pty Ltd 1971 S.F. Newman, Manager Director, Engineering Products Pty Ltd, Employer Representative, Metal Trades Division, Apprenticeship Commission 1972 R.J. Dobell, Regional Directorof Education, Ballarat 1973 B.J. McCulloch, Manager, ELectrical Supply, Mid-Western Regions, State Electricty Commission. 1974 W.J.C. North, Managing Director, Australian Timken Pty Ltd 1975 I.D. McCoy, Managing Director, James Selkirk Pty Ltd Four page booklets listing students who won a trade prize at the Ballarat School of Mines. From 1960 to 1971 the awards were held at the Ballarat Town Hall Trench Room, in 1972 it was held at the Lower Civic Hall, and from 1973 to 1975 it was held at the Wendouree Municipal Hall. ballarat school of mines, prize night, ballarat town hall, trench room, lower civic hall, wendouree municipal hall, commercial, awards, dressmaking, woolclassing, turning and fitting, tool and die-making, oxywelding, electric welding, boiler making, panel beeting, motor mechanics, electrical mechanics, arpentry and joinery, plumbing and gasftting, m.b. john, h.e. arblaster, harry arblaster, w.g. smith, a.e. stohr, ken webb -
Federation University Historical Collection
Drawings, Engineering Drawings, 1950 - 1970s
Illustrations and studies of several mechanical components: .1) Boring tool holder, adjustable, handwritten sheet, drawing and blueprint .2 - .5) drawings of mechanical componentstechnical drawing, geoff biddington, engineering drawings, drawing, engineering -
Federation University Historical Collection
Timber Instrument, Teco Grooving Tool
This item was last used at the Ballarat School Of Mines, Flintoff Building Studies Centre, Youille Street, Ballarat. Instructors at the above centre used them. Two pages photocopied from a text book dealing with timber trusses (100-101) are filed for reference.A steel disc equipped with four cutting blades bolted to disc periphery. Disc mounted on a plain shaft, top end can be inserted into a chuck, bottom end enters a pilot hole. Purpose - to produce a circular deep groove in structural timber. Stored in a green wooden box.Stamped on disc top and bottom faces "TECO 418" On front of box, ' "TECO " GROOVING TOOL' On lid of box, "TIMBER ENGINEERING Co - SYDNEY - N S W " Brass hook for closing lid.ballarat school of mines, flintoff building studies, cutting blades, disc, chuck, plain shaft, circular deep grooves -
Bendigo Historical Society Inc.
Functional object - QC Binks collection: slide rule
... remained an essential tool in science and engineering... an essential tool in science and engineering and was widely used ...The logarithmic slide rule is a compact device for rapidly performing calculations with limited accuracy. The slide rule remained an essential tool in science and engineering and was widely used in business and industry until it was superseded by the portable electronic calculator late in the 20th century. Slide rule in a green case. On the back a small plaque: "Q.C. Binks-BSM 1939-1941. Q.C. Binks-BSM 1939-1941engineering, slide rule, logarithmic slide rule -
Bendigo Historical Society Inc.
Slide - RALPH BIRRELL COLLECTION: EIG SCHOOL, c1966
EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1967. Bendigo Institute of Technology, Engineering School, Applied Science. View from inside one of the rooms of the new building, room has a lot of the builders' tools in it, along with a broken pain of glass.Perutzeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1967. bendigo institute of technology, engineering school, applied science. view from inside one rooms new building, room has builders' tools broken pain glass. -
Bendigo Historical Society Inc.
Slide - RALPH BIRRELL COLLECTION: EIG SCHOOL, c1966
EIG School - Ralph Birrell Collection. - Construction of Latrobe Uni. C1966. Bendigo Institute of Technology, Engineering School, Applied Science. New cupboard with tool board mounted on the wall and tools placed in correct order. Machine front left corner of photo.Perutzeducation, tertiary, latrobe university bendigo, eig school - ralph birrell collection. - construction of latrobe uni. c1966. bendigo institute of technology, engineering school, applied science. new cupboard tool board mounted on wall tools correct order machine corner photo -
Churchill Island Heritage Farm
Machine - Grain hopper/grinder
This grinder is attached to the Sundial stationary engine by a leather belt. The grinder would have been used to grind grain for flour and by adjustment for animal and poultry feed. The hopper is constructed of wood but the grinding mechanism below is marked J. Buncle, Iron Works, N. Melbourne. John Buncle (1822 – 1889) was born in Edinburgh and completed an apprenticeship in engineering and piano making. He worked with firms designing steam engines and locomotives and in 1846 was working in the Vulcan foundry when he married Mary Ann Binns, the daughter of his employer. They had eleven children of whom eight survived infancy. The family arrived in Melbourne in 1852 at the height of the gold rush and he was immediately employed at Langlands foundry. Melbourne had an acute shortage of skilled tradesmen so after six months he started his own business using his various talents. As the gold rush subsided, he settled in to engineering and contracting and among other things, supplied the iron work for the Johnston Street bridge over the Yarra River. Gradually he turned to the design and manufacture of agricultural machinery and tools with which his name is chiefly associated. With his iron works in North Melbourne he was held in high esteem by his contemporaries, becoming the President of the Chamber of Manufacturers and serving two terms as Mayor of the Municipality of Hotham. He wrote Experiences of a Victorian Manufacturer with amusing anecdotes of conditions in early Melbourne. The company became J.Buncle & Son and finally in 1952, John Buncle-Commando Ltd. It finally went into liquidation in February 1957. Yellow wooden hopper on black grinder with blue parts mounted on green stand. Attached by belt drive to Sundial enginefarm machinery, grain grinder, hopper, machine driven, churchill island -
NMIT (Northern Melbourne Institute of TAFE)
Photographs - CTS 1940-1943, Collingwood Technical School. Defence Training Scheme, 1940-1943
Collingwood Technical School trained apprentices in many trades. CTS was also invlved in Training Schemes during the late 1930s and during World War II. These photographs depict some of the machines and machine parts built in class. These are high quality professional photographs taken circa 1940-1943. At this time , CTS was part of the Defence Training scheme. These photographs are a visual record of this scheme.6 black and white photographs mounted on brown card. Photographs depict various aspects of lathe work undertaken during the Defence Training Scheme, 1940-43. Also a smaller photograph of a Moultar Thread Milling Machine 1941.Each photograph has a hand written caption on the back. Captions: 1. Finished surface plates for R.A.A.F. / standing on trestle after scraping. Stack of / others in background waiting for scraping. 2. Lathe bodies in foreground, with machined / parts of lathes in middle distance, and milling / cutters, gauges and bearings in background. 3. Frames of glass splitting machines, thread / rectifying machines, and two types of milling / machine vises made in technical schools. 4.View of engineering machine shop. Carbon dioxide / freezing box in foreground, and stack of / surface plates for RAAF in middle / distance. 5.Fan geared lathes, 6 inch centres, with / self-contained motor drives, made for / cartridge factory. To be used for making / this 6.Freezing of cast iron surface plates / in layers of solid carbon dioxide / blocks. Smaller photograph has a handwritten note on the reverse: 'this photograph shows how, with the aid of a 3ft. extension mounted in front of the tool box, on which Mr. Grubb sen. is seated, these large milling machine bases ... machinists at Collingwood Technical School. A Strang, Principal 21.4.1941'. collingwood technical school, cts, apprentices, students, defence training scheme, lathes, machinery, machine parts, nmit, -
Bendigo Historical Society Inc.
Document - BROADCASTING STATION 3CV, MARYBOROUGH, 2 March, 1956
Broadcasting Station 3CV, Maryborough. A souvenir of the opening of the New Studios and Offices of Central Victoria Broadcasters Pty Ltd. March 2nd, 1956. Established 1956, offices in Burke Street, opening coincides with the stations 21st birthday, March 2 for the former celebration, October 26 for the latter. Coverage included Bendigo, Ballarat, Daylesford, Castlemaine and Maryborough. 3CV plays active part in assisting charities and hospitals at Maryborough, Daylesford, Maldon and Dunolly. Active Women's Radio Club with branches in country centres adds strength to station's charitable efforts. Opening 3CV's new premises will widen the scope of the station's charitable efforts, and stronger link with Australian Commercial Broadcasting stations. Writer Harold V Nunn writes history of district of Mayborough. Manager Ken J Parker, Central Victoria Broadcasters Pty. Ltd. The Souvenir brochure also covers topics such as: deep lead mining. WWI. Houses being pulled down. New settlements of Mildura. Secondary Industries. Bowenvale, Alma, Majorca, Craigie, Amherst, Adelaide Lead, Havelock, Bet Bet, Bently. Primary production and a railway staff of approximately 150. Maryborough a little town without a future. Coal fields at Wonthaggi. 1917 a public meeting was convened in an effort to stem the tide of adversity. Mayor George Frost, M.L.A., decision to form a Progress Association, a policy of secondary industry was decided upon and committees were appointed, James L Drew much credit is due. Maryborough's move for rejuvenation was revolutionary, because apart from Ballarat, Bendigo and Geelong, it was regarded as so much presumption that industry could be expected to function with success in a country town. Governments were unsympathetic. Maryborough & district people showed determination to succeed and their faith in their town. Employment and economic security provided by the industries outweighed the debt. Maryborough's general position is that it is no longer dependent upon one particular phase of activity. The first of the industries to be formed in 1918 was the Butter Factory. The nearer dairy companies did not take kindly to the prospect of another opposition company taking supplies from their districts, and in the first few years of establishment completion made the going hard for the management. But adopting a conservative policy and placing all profits to reserve I the first six years of operation headway was gradually made. Thus it was a red letter day for the company in 1925 when the first dividend of 5 percent was paid.1955 dividend of 10 per cent. Operating it's own trucks the dairy serviced local dairymen up to 40 miles. Maryborough Knitting mills est. 1923, having transferred from Clunes. Out bid Ballarat and Bendigo to the industry. The mill has what is probably the largest circular underwear plant in the Commonwealth, which is conservatively valued at 198,913 pounds. It produces between four and five million garments each year, worth over one million pounds. The company has established subsidiary mills at Dunolly, Talbot and Avoca. The company also assisted in the establishment of the Interknit Hosiery Co. Ltd., Clunes. The Maryborough Flour Mills is the second oldest of Mayborough's industries. It was built by Mr Cadwallader over 70 years ago. It was later sold to Mr. A Land and then to Jas. Minifie & Co. It had a somewhat 'in-and -out' existence until purchased in 1923 by Messrs. Willersdorf and Forbes, of Eddington. In 1939 the firm began to build silos for the storage of bulk wheat and the present storage capacity is 100,000 bushels. 1944 power was changed from steam to electricity. The mill has an out put of 20 sacks an hour. 1938 a chaff mill was built, and now is regarded as one of the best in Victoria. Its output in one year of approximately 6,800 tons is a State record for a single cutter. During this 30 year period Patience and Nicholson Limited has grown with Maryborough and is now one of the major key industries of Australia. The P&N brand covers precision tools - taps, dies and twist drills - indispensable to the country's economy, and quality is acknowledged equally by an air craft factory in Canada, a dockyard in Thailand, a railway workshop in New Zealand, no less than by our own Australian industries. Maryborough can be proud of the part played by P&N in war when, geared to the needs of the times, it poured countless millions of tools into defence factories and to the armed forces of the Allies, and now in peace when it is providing, hydro-electric undertakings and the manufacture of cars and tractors. From 1858, W Phelan & Sons Pty Ltd has made phenomenal and spectacular growth, becoming incorporated as a private company in 1929. It is without doubt the greatest private development in the history of Maryborough. 1940 joinery manufacture was commenced. The company entered the Ready Built Housing field in `950 - and in 1951 established a factory at Cairns, Northern Queensland to overcome the manufacturing difficulties being experienced due to the shortage of plywood in Victoria. Present activities include: Ready Built Housing Factory, on-site building, a modern joinery, timber yard, drying kilns, etc., and plumbing & electrical & engineering services, a door and panel factory at Cairns, retail hardware store, Melbourne Sales Depot. Hedges & Bell Pty Ltd were est 1945, with a staff of 40 employees are the largest printing firm outside the metropolitan area. The branch of Premier Wireworks is a contribution made by the decentralisation policy of the State.event, official, celebration, broadcasting station 3cv, maryborough. a souvenir of the opening of the new studios and offices of central victoria broadcasters pty ltd. march 2nd, 1956. established 1956, offices in burke street, 21st birthday. coverage bendigo, ballarat, daylesford, castlemaine maryborough. assisting charities and hospitals maldon and dunolly. women's radio club opening 3cv's new premises australian commercial broadcasting stations. writer harold v nunn writes history of district of mayborough. manager ken j parker, central victoria broadcasters pty. ltd. souvenir brochure: deep lead mining. wwi. houses pulled down. new settlements. primary production railway staff. coal fields wonthaggi. 1917 a public meeting was convened in an effort to stem the tide of adversity. mayor george frost, m.l.a., form a progress association, policy of secondary industry, james l drew rejuvenation was revolutionary, employment and economic security. the first of the industries to be formed in 1918 was the butter factory. thus it was a red letter day for the company in 1925 when the first dividend of 5 percent was paid.1955 dividend of 10 per cent. operating it's own trucks serviced local dairymen. maryborough knitting mills est. 1923 largest circular underwear plant in the commonwealth. established subsidiary mills at dunolly, talbot, avoca. interknit hosiery co. ltd., clunes. the maryborough flour mills it was built by mr cadwallader. mr. a land jas. minifie & co. messrs. willersdorf and forbes, build silos for wheat storage capacity is 100, 000 bushels. 1944 power was changed from steam to electricity. 20 sacks an hour. 1938 a chaff mill was built, best in victoria. patience and nicholson limited the p&n precision tools - taps, dies and twist drills. war, geared to the needs of the times, countless millions of tools into defence factories the armed forces of the allies, hydro-electric undertakings and the manufacture of cars and tractors. from 1858, w phelan & sons pty ltd, incorporated 1929. 1940 joinery manufacture. ready built housing field in 1950 - 1951 established a factory at cairns, northern queensland to overcome the manufacturing difficulties being experienced due to the shortage of plywood in victoria. present activities: ready built housing factory, on-site building, a modern joinery, timber yard, drying kilns, etc., and plumbing & electrical & engineering services, a door and panel factory at cairns, retail hardware store, melbourne sales depot. hedges & bell pty ltd were est. 1945, with a staff of 40 employees are the largest printing firm outside the metropolitan area. the branch of premier wireworks is a contribution made by the decentralisation policy of the state. -
Victorian Interpretive Projects Inc.
Book, Theodore Jesse Hoover, The Economics of Mining, 1938
Theodore Jesse Hoover, brother of the 31st President of the United States, was born in West Branch, Iowa, on January 28, 1871. He attended Stanford and received the Bachelor of Arts degree in Geology and Mining in 1901. Following graduation his professional career started with the position of assayer for the Keystone Consolidated Mining Company. After one year, he became assistant manager for the Standard Consolidated Mine, and a year later he was promoted to manager of the operation. In 1907 Hoover went to London as general manager of Minerals Separation, Ltd. This company was developing the froth flotation process for recovering minerals from ores. Hoover took an active part in the development of the flotation concentration process and authored one of the first books on the concentration of ores by flotation. After four years with Minerals Separation, Ltd., Hoover entered private practice as a consulting mining and metallurgical engineer with offices in London and in San Francisco. He was very successful and held positions of consulting engineer, managing director, director, and president of many mining companies in America, Europe, Asia, Africa, and Australia. He returned to Stanford in 1919 as Professor of Mining and Metallurgy and Executive Head of the Department of Mining and Metallurgy. His experience and ability in organization made him a natural leader. He was influential in the formation of the School of Engineering at Stanford. The School was formed in 1925 and he was made dean, a position he held until his retirement in 1936. As dean of engineering, he promoted a broad fundamental training program for undergraduate engineering students. Under his guidance, emphasis was placed upon graduate work and he was responsible for developing strong graduate engineering curricula at Stanford. While dean he continued teaching and his course, "The Economics of Mining," developed into a book which was published in 1933. He became interested in the functions of engineers and, with Professor Fish, wrote a book entitled "The Engineering Profession" which was published in 1940 and revised in 1950. In addition to his academic activities he was generous in his hospitality. Faculty and students alike enjoyed the annual field day and barbecue at his Rancho del Oso, near Santa Cruz. He was widely read and had a lively interest in all the things he encountered. He speculated on the antiquity of man and man's early production processes. To verify an idea regarding flint tools, he studied their shapes and became proficient in making arrow heads. He was also interested in wild life, and was one of the founding members of the Cooper Ornithological Society. (http://engineering.stanford.edu/about/bio-hoover)Blue hard covered book of 547 pages including an index. Contents include mine valuation (sampling, ore deposits, ore reserves, financial provisions, sale of mineral product, metal prices, reports) and Mining Organization (Co-operative effort, Mining Companies, Promoting Mining Enterprises, fluctuations of share prices, valuation of mining shares, fakes and fallacies, the mining Engineer and the law) and Mine Management (Organization of staff, mine manager, efficiency, industrial relations, training and discipline, safety).inside cover 'Charles Bacon Mackay School of Mines'.mining, economics, hoover, stanford, mackay school of mines, mackay, bacon -
Moorabbin Air Museum
Manual (Item) - Vickers Hydraulic Pumps Engineering Data
Description: 300 pages. Published by Wright Aeronautical Corp. Published 8/4/1940. Wright Engines Cyclone Models F, F-50, G, G-100 and Whirlwind J-6 (E-Series) Tool Catalogues Level of Importance: World. -
Moorabbin Air Museum
Document (item) - Drafting practice threads springs, CAC Tool engineering manual
... CAC Tool engineering manual... Moorabbin melbourne CAC Tool engineering manual Document Drafting ... -
Puffing Billy Railway
Sectioned Tangye Steam Operated Water Pump, 1900s
Sectioned steam pump so that the pump workings can be seen. Inscriptions & Markings: Tangye Birmingham, This steam pump was presented by the colonial gas Assn Ltd (brass plaque) The Colonial Gas Association was originally formed in London on 2 February 1888, as The Australasian Gas Association Limited. The primary objective of the company was to provide investment capital to help finance the construction and management of gasworks being established by the London engineering firm John Coates & Co in metropolitan cities and regional towns throughout Australia and New Zealand. By 1890, the Australasian Gas Association had acquired gasworks at Benalla, Shepparton, Wangaratta, Warragul, Maldon and Seymour, and had constructed a large gasworks at Box Hill to supply the eastern suburbs of Melbourne. In 1893, the company's name was changed to the Colonial Gas Association Limited. During the 1890s, the company acquired regional gasworks in Queensland, Western Australia and South Australia, followed by its first gasworks in New South Wales, in 1911. In 1914, the company consolidated its metropolitan supply area by purchasing the Oakleigh and Footscray gasworks. Further expansion occurred in the 1920s with the purchase of established gasworks at Williamstown, Frankston and Dandenong and the acquisition of ten further gas undertakings in Queensland and New South Wales, making the firm the fifth largest gas producer in Australia. info from The Colonial Gas Association Limited, circa 1893 https://collections.museumvictoria.com.au/items/1553322 Originally formed by the five Tangye brothers from Cornwall as James Tangye & Brothers in 1857, this Birmingham engineering firm grew to become one of the largest suppliers of jacks, pumps, steam and oil engines, hydraulic presses, gas producers and machine tools in the late 19th and early 20th centuries. The successful sideways launching of I.K. Brunel's 'Great Eastern' from the mud of the Thames in 1857 using Tangyes hydraulic jacks gave the firm much needed publicity and new orders flowed in. To finance expansion, George Price provided additional capital and the company name became Tangye Brothers & Price in 1859. A new factory known as the 'Cornwall Works' was built in Clement Street, Birmingham. In 1872, the firm became Tangye Brothers and in about 1879- 1880 began production of internal combustion stationary engines based on Horace Robinson's patents, later using the Otto four-stroke design for its Soho range of gas engines. Examples of the Soho engine were exhibited by the firm at the 1880 Melbourne International Exhibition. Petrol and oil engines were made from the 1890s onward, and by 1910 had developed into the Model B, BR and AA series engines. Tangyes supplied custom-built pumps and presses for particular applications, becoming a major exporter of engineering equipment. In 1884, Tangye Brothers opened a custom-built branch office, showroom and warehouse in Melbourne at Cornwall House in Collins Street West, advertising the full range of engineering products. These lantern slides images are taken from Tangyes product catalogues from the 1910-1925 period and are believed to have been used as sales promotional aids in Australia by the Tangye Brothers. info from https://collections.museumvictoria.com.au/articles/4670 Historic - Industrial Steam Operated Water Pump built by Tangye Bros and used by the Colonial Gas Company - Melbourne, Victoria, AustraliaSectioned steam pump so that the pump workings can be seen. Tangye Birmingham, This steam pump was presented by the colonial gas Assn Ltd (brass plaque)puffing billy, steam pump, sectioned, tangye bros -
Puffing Billy Railway
Phoenix Foundry Plate
Phoenix Foundry Plate - replica Made about 2010 cast off original from locomotive Y112 The Phoenix Foundry (1857-1906) fabricated iron and brass products - including engines and pumping gear for the mining industry, locomotives, steam rollers, water pipes, water gauges and diverse small items. Throughout its operation the business was located at premises on Armstrong Street, Ballarat . Background In 1852, at the age of thirty-three and after a year of operating his own engineering business at Williamstown, Lancashire-born blacksmith and engineer George Threlfall (1819-1897) arrived on the Sebastopol gold plain and immediately undertook blacksmith work repairing picks and tools for the miners. Little did he know that this fledgling business would be the genesis of the most iconic business of nineteenth-century Ballarat. At approximately thirty-nine years of age, English mechanical engineer Richard Carter (c1814-1883) came to Australia on board the Arrogant - arriving in Melbourne on 19 April 1853. He soon travelled to the Ballarat goldfields. Born in the year 1830 in Belfast (Ireland), mechanical engineer William Henry Shaw (1830-1896) arrived in Australia in October 1853. He worked briefly with George Threlfall at Sebastopol, then moved to Geelong to manage the small foundry of Frederick Moore. Twenty-four year old English-born iron moulder Robert Holden (c1831-?) left his home in Belfast (Ireland) in late 1854 and travelled from Liverpool to Melbourne on board the James Baines - arriving in February 1855. Afterwards he joined his brother-in-law William Henry Shaw in Ballarat. History Foundation to Incorporation In March 1857 George Threlfall joined in business with Richard Carter, William Henry Shaw and Robert Holden. They relocated Threlfall's successful engineering enterprise from Sebastopol to new premises in Armstrong Street, Ballarat. This business was then known variously as the Phoenix Iron Works Company, Phoenix Foundry or Messrs Carter and Co. By 15 April 1857 they were advertising that they were open for business as engineers, millwrights, boiler makers, smiths, iron founders and brass founders. In January 1858 George Threlfall left the partnership. Incorporation to 1889 1890 to Closing locomotive Y112 Builder: Phoenix Foundry, Ballarat Builder’s Number & Year: 238 of 1889 Designer: Kitson & Co Wheel Arrangement: 0-6-0 No. in class: 31 Entered Service: 24 July 1889 Taken off Register: 11 May 1961 The origins of the Victorian Railways Y-class lay with the decision by Kitson & Co, Leeds to place a 0-6-0 freight locomotive on display at the Centennial International Exhibition, Melbourne in 1888, together with a 2-4-2T suburban passenger locomotive. This marketing initiative proved successful as the Victorian Railways were clearly impressed with these machines, with both purchased after the exhibition and becoming the patterns for new standard locomotive types. Thirty examples of the 0-6-0 heavy freight design were ordered from the Phoenix Foundry, Ballarat, becoming the Y-class for main line heavy freight duties, while the 2-4-2T design became the E-class for Melbourne suburban passenger duties (represented by preserved locomotive E 236). The Y-class prove successful in service and accrued high mileages. They were inevitably superseded by more modern and powerful steam locomotives and a number cascaded into shunting and yard pilot duties, often with the addition of shunters steps along both locomotive and tender. Y 112 was one of the last in service when withdrawn in 1961. Fortunately it was saved for preservation and plinthed in central Ballarat, ostensibly in commemoration of Phoenix Foundry. I understand it is owned by the Sovereign Hill Museums Association. During the 1980’s, Y 112 was leased to Steamrail Victoria and restored to operation at an industrial site in Ballarat. Y 112 features an attractive lined apple green livery and has performed various rail tours around Victoria since restoration. It is normally based at the Steamrail depot in Ballarat East. Y 112 is the only 19th century design in operational condition in Victoria and as such is one of the oldest working steam locomotive in Victoria . Historic - Phoenix Foundry Plate - replica Made about 2010 cast off original from locomotive Y112Phoenix Foundry Plate Oval shaped plate with an image of a phoenix centered at the top with lettering surrounding it.Phoenix Foundry No 238 Ballarat Company Limited 1889.puffing billy, phoenix foundry, ballarat, locomotive y112, phoenix foundry plate - replica -
Victorian Aboriginal Corporation for Languages
Periodical, Australian Institute of Aboriginal and Torres Strait Islander Studies, Australian Aboriginal studies : journal of the Australian Institute of Aboriginal and Torres Strait Islander Studies, 2009
Social Engineering and Indigenous Settlement: Policy and demography in remote Australia John Taylor In recent years neo-liberals have argued that government support for remote Aboriginal communities contributes to social pathology and that unhindered market engagement involving labour mobility provides the only solution. This has raised questions about the viability of remote Aboriginal settlements. While the extreme view is to withdraw services altogether, at the very least selective migration should be encouraged. Since the analytical tools are available, one test of the integrity of such ideas is to consider their likely demographic consequences. Accordingly, this paper provides empirically based speculation about the possible implications for Aboriginal population distribution and demographic composition in remote areas had the advice of neo-liberal commentators and initial labour market reforms of the Northern Territory Emergency Response been fully implemented. The scenarios presented are heuristic only but they reveal a potential for substantial demographic and social upheaval. Aspects of the semantics of intellectual subjectivity in Dalabon (south-western Arnhem Land) Ma�a Ponsonnet This paper explores the semantics of subjectivity (views, intentions, the self as a social construct etc.) in Dalabon, a severely endangered language of northern Australia, and in Kriol, the local creole. Considering the status of Dalabon and the importance of Kriol in the region, Dalabon cannot be observed in its original context, as the traditional methods of linguistic anthropology tend to recommend. This paper seeks to rely on this very parameter, reclaiming linguistic work and research as a legitimate conversational context. Analyses are thus based on metalinguistic statements - among which are translations in Kriol. Far from seeking to separate Dalabon from Kriol, I use interactions between them as an analytical tool. The paper concentrates on three Dalabon words: men-no (intentions, views, thoughts), kodj-no (head) and kodj-kulu-no (brain). None of these words strictly matches the concept expressed by the English word mind. On the one hand, men-no is akin to consciousness but is not treated as a container nor as a processor; on the other, kodj-no and kodj-kulu-no are treated respectively as container and processor, but they are clearly physical body parts, while what English speakers usually call the mind is essentially distinct from the body. Interestingly, the body part kodj-no (head) also represents the individual as a social construct - while the Western self does not match physical attributes. Besides, men-no can also translate as idea, but it can never be abstracted from subjectivity - while in English, potential objectivity is a crucial feature of ideas. Hence the semantics of subjectivity in Dalabon does not reproduce classic Western conceptual articulations. I show that these specificities persist in the local creole. Health, death and Indigenous Australians in the coronial system Belinda Carpenter and Gordon Tait This paper details research conducted in Queensland during the first year of operation of the new Coroners Act 2003. Information was gathered from all completed investigations between December 2003 and December 2004 across five categories of death: accidental, suicide, natural, medical and homicide. It was found that 25 percent of the total number of Indigenous deaths recorded in 2004 were reported to, and investigated by, the Coroner, in comparison to 9.4 percent of non-Indigenous deaths. Moreover, Indigenous people were found to be over-represented in each category of death, except in death in a medical setting, where they were absent. This paper discusses these findings in detail, following the insights gained from the work of Tatz (1999, 2001, 2005) and Morrissey (2003). It also discusses a further outcome of this situation - the over-representation of Indigenous people in figures for full internal autopsy. Finding your voice: Placing and sourcing an Aboriginal health organisation?s published and grey literature Clive Rosewarne It is widely recognised that Aboriginal perspectives need to be represented in historical narratives. Sourcing this material may be difficult if Aboriginal people and their organisations do not publish in formats that are widely distributed and readily accessible to library collections and research studies. Based on a search for material about a 30-year-old Aboriginal health organisation, this paper aims to (1) identify factors that influenced the distribution of written material authored by the organisation; (2) consider the implications for Aboriginal people who wish to have their viewpoints widely available to researchers; and (3) assess the implications for research practice. As part of researching an organisational history for the Central Australian Aboriginal Congress, seven national and regional collections were searched for Congress?s published and unpublished written material. It was found that, in common with other Aboriginal organisations, most written material was produced as grey literature. The study indicates that for Aboriginal people and their organisations? voices to be heard, and their views to be accessible in library collections, they need to have an active program to distribute their written material. It also highlights the need for researchers to be exhaustive in their searches, and to be aware of the limitations within collections when sourcing Aboriginal perspectives. Radiocarbon dates from the Top End: A cultural chronology for the Northern Territory coastal plains Sally Brockwell , Patrick Faulkner, Patricia Bourke, Anne Clarke, Christine Crassweller, Daryl Guse, Betty Meehan, and Robin Sim The coastal plains of northern Australia are relatively recent formations that have undergone dynamic evolution through the mid to late Holocene. The development and use of these landscapes across the Northern Territory have been widely investigated by both archaeologists and geomorphologists. Over the past 15 years, a number of research and consultancy projects have focused on the archaeology of these coastal plains, from the Reynolds River in the west to the southern coast of the Gulf of Carpentaria in the east. More than 300 radiocarbon dates are now available and these have enabled us to provide a more detailed interpretation of the pattern of human settlement. In addition to this growing body of evidence, new palaeoclimatic data that is relevant to these northern Australian contexts is becoming available. This paper provides a synthesis of the archaeological evidence, integrates it within the available palaeo-environmental frameworks and characterises the cultural chronology of human settlement of the Northern Territory coastal plains over the past 10 000 years. Ladjiladji language area: A reconstruction Ian Clark and Edward Ryan In this reconsideration of the Ladjiladji language area in northwest Victoria, we contend that while Tindale?s classical reconstruction of this language identified a fundamental error in Smyth?s earlier cartographic representation, he incorrectly corrected that error. We review what is known about Ladjiladji and through a careful analysis demonstrate not only the errors in both Smyth and Tindale but also proffer a fundamental reconstruction grounded in the primary sources.ladjiladji, social engineering, dalabon, indigenous health, coronial system, radiocarbon dating