Brian Cleveland taught art to Swinburne students from the 1970s to 1990s and sketched and recorded iconic areas of the city that were scheduled to vanish or be seriously altered. The Port Melbourne drawings were predominantly done in the 1990sSeventy-two (72)) pencil drawings (some with watercolour washes) by Brian Cleveland. Sites include: Centenary Bridge (including demolition) ; ships ; Princes Pier ; Station Pier ; structures and cranes on piers ; cable tram sheds ; London Hotel ; foreshore views ; Beacons (leading lights) ; kiosks ; Missions to Seamen building: railway stations.built environment, built environment - civic, piers and wharves - princes pier, piers and wharves - station pier, engineering - bridges, brian cleveland, centenary bridge, missions to seamen

In 1867, Frenchman Joseph Monier patented the use of metal reinforced concrete for use in horticultural troughs. Francois Hennebique expanded this idea into a general construction technique including for the construction of bridges with the first bridge built in 1875. In Victoria, Monash and Anderson, representatives of the Australian patent holders and later Victorian patent holders. The Bendigo Monier Bridges were built between 1901 and 1902. Monash's contribution was not in the actual technology but in the promotion and defence of the new technology that was faced by much doubt and scepticism.Single A4 sheet, Appendix E, photocopied from "The Monier Bridges of Bendigo" Includes dates and specifications of Victorian Monier Arched Bridges. Prepared by the Dept of Civil Engineering, Monash University. July 1988monier bridges, engineering

In 1867, Frenchman Joseph Monier patented the use of metal reinforced concrete for use in horticultural troughs. Francois Hennebique expanded this idea into a general construction technique including for the construction of bridges bridges with the first bridge built in 1875. In Victoria, Monash and Anderson, representatives of the Australian patent holders and later Victorian patent holders. The Bendigo Monier Bridges were built between 1901 and 1902. Monash's contribution was not in the actual technology but in the promotion and defence of the new technology that was faced by much doubt and scepticism.Series of Bendigo Advertiser articles on the theme of Monier Bridges. Five articles from "Discover Bendigo" by James Lerk. 1999 One article from "History Lives" by Jim Evens titled 'Building History Bridges" 2014 Two black and white photos from "The Way we Were" featuring the construction of the Booth Street Bridge 2014 and the collapse of the King Street bridge 2015.monier bridges, engineering

Victoria Bridge is a riveted and welded steel Warren truss bridge over the Yarra River completed in 1884 to a design by Fraser & Chase following a controversial design competition held in 1880. Funds for the bridge's construction were provided by the councils of Collingwood, Hawthorn, Kew and Richmond. The contract was awarded to Mr P. Platt. Charles Rowand was officially appointed Supervising Engineer in 1883. The winning design was based on the theoretical work of William Charles Kernot (1845-1909) who campaigned for economy in public works design and the application of scientific principles in engineering. ... The bridge was widened in 1890 by the addition of a third line of truss on new piers on the up stream side to carry horse trams. Work commenced in 1914 to convert the horse tramway to an electric tramway by the Prahran & Malvern Tramways Trust, part of the Trust's extension of its tramway into the eastern suburbs between 1913-18. In 1915 the bridge was further strengthened to accommodate the extra weight of electric trams and widened by the addition of two six feet cantilever footpaths. During this period the Prahran & Malvern Tramways Trust erected two ornamental gantries over the roadway to support overhead wires for the electric tramway. Further widening and reconditioning of the bridge took place in 1933, including the addition of four new welded trusses, two intermediate and two on the outside. The latter were supported on new cantilevered truss cross beams attached to the top of the piers. (Source: Heritage Victoria)Early and rare postcard of the Victoria Street Bridge linking Victoria Street and Barkers Road.Polychrome postcard of the Victoria Street Bridge which links Richmond and Abbotsford with Kew and Hawthorn.View from Harrison Cres embankment / former Xavier College boatshed on site of tree in foreground. / Chimney left corner - Wool Scoring Mils in Victoria St. / On horizon - Studley Villa, Studley House circa 1880s, Studley Hall / Chinese gardens to be seen behind three set of columns / M.J. Slatterypostcards -- yarra river, postcards -- bridges. -- greater melbourne (vic.), victoria street bridge

Col. Harley Tarrant was an astute businessman and a part-time soldier. He was born at Clunes in 1860 and as a young man worked with an engineering firm in Sydney. He later joined the Board of Works in Melbourne. and later entered the early car manufacturing and retailing trade. In 1905 Harley Tarrant built the first car to be built and sold in Australia. For a time he was a surveyor and worked in Surrey Hills but motoring became his prime interest. In the early 1890s he set up a workshop in what was then Post Office Place, Melbourne. He built stationary engines which ran on kerosene and in the first years of the twentieth century, with partner W Howard Lewis, built the first petrol driven car in Australia. This photo is of his sixth car and was taken after the finish of the 1st Sydney to Melbourne Dunlop Reliability Trial, which Tarrant won. Harley Tarrant produced cars between 1901 and 1907 at the Tarrant Motor and Engineering Company in Queen's Bridge Street, South Melbourne. The first car had a rear-mounted two-horse power Benz engine. Two-cylinder models were later produced followed by 4-cylinder models. The only Tarrant car in existence in 1984 was owned by Harley Tarrant's grandsons, Kenneth and Peter Holmes of Melbourne. The 1906 Tarrant car featured on an Australia Post stamp in 1984. It was one of a series of 5 stamps featuring Australian veteran and vintage cars.Black and white photo of a car without a hood in the driver's seat of which is a man with cap, driving dust coat and goggles, identified as Harley Tarrant. Beside him is a young girl in a large frilly; she is identified as Doreen Tarrant, his daughter. Another man with cap and goggles is talking to him and a gentleman in a bowler hat looks on. There is a women and 2 children in the background in front of a large brick wall decorated in two coloured bricks. cars, inventions, dunlop reliability trial, tarrant motor and engineering company, mr harley tarrant, miss doreen tarrant, mrs doreen holmes, col harley tarrant

In 1875, the Rocky Mountain Extended Gold Sluicing Company Ltd was created, utilising the previous Rocky Mountain claim for the area near Lake Sambell. The company employed A.L Martin to survey an area for a tunnel underneath Beechworth and Johnson Stephens to dig it. The tunnel was built at a rate of 40 feet a month and eventually measured 800 metres. The tunnel was a true accomplishment both in the present and during the 19th century. It was considered to be a marvelous engineering feat. Beechworth is renowned for its hydraulic sluice method of mining. This involved soil being exposed to torrents of water from high-pressure hoses. From 1876 until its closure in 1921, the mine produced an astounding 47,926 ozs of gold. Companies like this were the source of income for many Chinese gold-diggers who sought to make their fortune on the goldfields of Beechworth. During the height of the rush, the town had around 7,000 Chinese inhabitants living on the outskirts of town as they were not permitted to live within Beechworth itself.The search for gold is ingrained into the history of Victoria and therefore, images like this one which portrays an open-cut sluicing site can reveal important information for society and technology for the date when the photograph was taken. This image is of important historical significance for its ability to convey information about sluicing and the methods used to find gold in 1910. It also shows a location where sluicing was undertaken which provides insight into the impact of sluicing on the environment at a time when it was done. This image of the Rocky Mountain mine is historically significant as the mining complex is now non-existent, with the only remains being the tunnel built in 1880 by the company, which was considered one of the greatest engineering feats of the time. The image also provides a first-hand look into the social and cultural networks at play during the 19th century with racial segregation of the Chinese at the 'Chinese Camp', as well as an insight into Beechworth's origins during the Gold Rush.A sepia rectangular photograph printed on matte photographic paper as a postcardReverse: Historic Beechworth / 7792.1 / ROCKY MOUNTAIN MINE / Viewed from the “Chinese Camp”, shown partly in the foreground, we see the central plant of the famous Rocky Mountain Mining Company. This extensive complex, of which nothing remains, was situated between Silver Creek and the present Lake Sambell area. The company was responsible for a tunnel cut through solid bedrock underneath the town of Beechworth and surfacing near the keystone bridge on the Wangaratta side. Completed in 1880 it was declared to be one of the greatest engineering feats in Australia. The tunnel is still basically intact today. / Series by Wooragee Graphics: Historic Beechworth. / COPYRIGHT BURKE MUSEUM / No.72 beechworth, rocky mountain mine, sluicing, gold rush, mining, gold

Taken in the early 1900s, the postcard depicts two girls dressed in old style, white knee length dress which was common for this period for young women. This compared to the ankle length styles which were acceptable for adult women. We can also see an example of early bridge construction and engineering, notably made from timber rather than from stone or steel, noted in the postcard as Snow's Bridge. Sepia rectangular postcard printed on card Obverse: Snow's Bridge/Beechworth Reverse: Dear Julie/ I received your pretty PB/ We haven't gone away yet. Mr Stokes/ asked me were you going to be/ married. He wished you luck/ (I wonder/ if he meant it.) We sent the Magpie to Annie to-day. I haven't got any/ word about going to a [unknown]/ yet. We had a great Friendly Societies/ day yesterday but it rained a bit/ Sally is going to get a [illegible] silk/ dress. When are you to be married?/ Mr Pounceby is back at Allen's shop./ [unknown]. We are going to Belle's for a [unknown] if we can. With Love from Lilly. bridge, beechworth, snow's bridge, children, childhood, postcard

Depicted in the photograph is Newtown Bridge or the Newtown Falls Bridge, in Beechworth, Victoria. Noted for its location, detailed craftsmanship and stonemasonry by Scottish stonemasons the Newtown Bridge was built in the 19th century provincial town of Beechworth (completed in 1875). The bridge was built over Spring Creek, spanning 6.3 meters wide and 24.8 meters tall. Beechworth held a distinct role in the administrative and commercial management of Victoria's north-eastern goldfields, with many objects and structures still well preserved from the towns establishment. The bridge indicates the growth of the town, replacing a previous timber structure as well as its association to the mining activity in the area and the rapid increase in Australia's economy that led to investment and development of roads and railways. The local granite used in the construction of the single arch Newtown Bridge makes the bridge and other buildings made with the granite unique to the area, the honey-toned material distinct to Beechworth. This photograph is historically significant as it provides insight into the industrial development of Beechworth and the surrounding area, contributed to by the goldfields. The photograph further captures the representation of vernacular engineering traditions and Scottish stonemasonry.Two sepia-toned rectangular photographs featuring a bridge in the background printed on matte photographic paper mounted on card.Reverse: 97.2324/ Newtown Bridge/ Beechworthbridge, newtown beechworth, newtown bridge, newtown, beechworth, beechworth falls bridge, beechworth mining district, spring creek,

Taken between 1928 and 1930, depicted is the Bethanga Bridge under construction. The Bridge was completed in 1930 and was built to assist residents of the Bethanga district to travel to Albury. Other bridges would become submerged by the backed-up water of the Murray and Mitta Rivers so the Bethanga bridge was built two miles above the Mitta Weir. The Bethanga Bridge was built north of the future Hume Dam which would be completed in 1936. At 2430 feet long, Bethanga Bridge was the longest road bridge in Australia at the time of its completion. The Bridge is 20 feet wide and made up of nine 270 feet long spans. Materials used include ten tons of paint for the steel works; 1600 tons of steel; 900 tons of timber for the decking; and reinforced concrete for the piers. The tender for the construction was awarded to C. Ruwolt Pty. Ltd., engineers who were located on Victoria Street, West Richmond. The contract was awarded for £71,890. It was predicted between 250 and 300 men would find employment on the project. The news was well received by trade unions at the time as there had been a drop in available engineering work.This photograph is historically significant as it depicts the progress of the Bethanga Bridge construction, which was important infrastructure for the area. It is also a good example of methods used in the area to assist in travel over the river prior to the construction of the Hume Dam.Black and white rectangular photo printed on matte photographic paper.Reverse: 1997 3186 / 84-19-3 / This is the bridge. / It is not yet open to traffic / yet. will not be completed / until May next / It is a wonderful bridge the / pillars are 100 feet high. / KODAK PRINT Envelope Obverse: Peterson PHOTO / Hume Weir Envelope Reverse: BMM 84-20-1,2+3. bethanga bridge, lake hume, hume dam, hume weir, murray river, bridge, bethanga, albury

This book was written by Dr J. J. C. Bradfield, (John Job Crew), 1867-1943. Dr JJC Bradfield was a visionary Australian engineer who worked with enormous energy and vision to build the infrastructure which he foresaw that Sydney would need as it grew. As early as 1903 Bradfield was making the case for the Sydney Harbour Bridge, in his presidential address as President of the Sydney University Engineering Society. Bradfield’s proposal — at that stage for a cantilever bridge between Dawes Point and Milsons Point — won the committee’s support and they recommended it be accepted. However, the First World War put a stop to these plans. While a bill to authorise the project passed the lower house of the NSW parliament in 1916, it failed to pass the upper house, on the grounds that funds should not be diverted from the war effort. With the war over, in 1922 the Sydney Harbour Bridge Act was passed by the NSW Parliament. The Sydney Harbour Bridge was officially opened in 1932 after Museum and St James railway stations were built. This book was written from the story broadcast by Dr. J.J.C. Bradfield. This item is a useful reference tool.A staple soft cover 16 pp booklet with a buff coloured cover. It has a sketch of the Sydney Harbour Bridge behind the title "The Bridge" in dark brown print. It contains information and photographs of the history and construction of Sydney Harbour Bridge.sydney-harbour-bridge bradfield-dr-j-j-c

The Stony Creek Trestle Bridge was built in 1916 when the existing rail line from Melbourne to Bairnsdale was extended to Orbost. This 97km Bairnsdale to Orbost extension through rugged terrain was reputed to have been the most difficult rail project undertaken in Victoria. In service for over 60 years the bridge was damaged by bushfire in 1980, with the last train crossing in 1987. At 247m long and 20m high, it is the largest standing bridge of its kind in the State, and is listed on the Register of Historic Sites. Built of red ironbark and grey box timber, it is a fine example of the early engineering skills that utilised the resources and materials found on site.The Bairnsdale to Orbost rail line contains the most varied range of timber & timber composite bridges on any Victorian line. The Stoney Creek bridge is listed on the Victorian Heritage Register for its architectural and historical significance. A black / white photograph of a very tall wooden railway bridge with a train along the top.railway-bridge stoney-creek-bridge east-gippsland-railway

This compressor was part of the E.G. Ward Collection. It is connected to the diving suit and boots also in our collection. Siebe Gorman & Company Ltd was a British company that developed diving equipment and breathing equipment and worked on commercial diving and marine salvage projects. The company advertised itself as 'Submarine Engineers'. It was founded by Augustus Siebe, a German-born British engineer chiefly known for his contributions to diving equipment. Siebe Gorman traded as an engineering firm for over 180 years from 1819 to 1999. The early success of the business was due to its founder, the Prussian immigrant Christian 'Augustus' Siebe (1788-1872). For business reasons, he applied for and was granted British citizenship in 1856. He was a gifted engineer who was able to translate theoretical problems into practical, working products. During the industrial Victorian period, the business traded as 'A. Siebe' at 145 High Street Holborn London, but in 1828 new premises were acquired at 5 Denmark Street, Soho. The family firm produced a wide range of manufactured goods including paper-making machinery, measuring machinery, water-pumps, refrigeration equipment and diving apparatus. Augustus Siebe specialised in submarine engineering early on and the company gained a reputation for the manufacture of safe, reliable diving apparatus. Augustus Siebe is best remembered for the development and manufacture of the ‘closed’ Diving Dress based on the ideas of Charles and John Deane, George Edwards and Charles Pasley. Apart from some small modifications to valves and diver communications, the basic 12 bolt ‘closed’ diving dress remained relatively unchanged after the 1870s. Later company successes were also based on innovation, with new products that could be successfully developed and manufactured to high standards. This was largely attributed to the inventive nature, foresight, engineering and entrepreneurial skills of Robert Henry Davis (1870-1965). In 1882, RH Davis joined the company of 'Siebe & Gorman' as a young 11-year-old office boy and he was to remain with the company until he died in 1965. Augustus Siebe retired in 1869 and handed over the company to a new partnership of Henry H. Siebe (1830-1885) and William A. O'Gorman (1834-1904). The new firm traded as 'Siebe & Gorman' (1870-1879) from premises in and around Mason Street, Westminster Bridge Road, Lambeth, London. The two partners soon recognised the potential of R.H. Davis and in 1894, aged 24, he became General Manager of Siebe & Gorman. Davis increasingly ran the company until the surviving partner (W.A. Gorman) died in 1904. The firm was disposed of to the Vickers (armaments) family and a new company 'Siebe Gorman & Co. Ltd.' (1905-1998) was formed. Under the chairmanship of Albert Vickers, R.H. Davis was kept on as Managing Director, and the company forged ahead. However, after WW1, the Great Depression caused manufacturing output and share prices to slump. In 1924 Robert Davis made a deal with the Vickers Board and acquired control of the company through majority shares. Under his leadership, the Siebe Gorman Company flourished and within time, four of his sons also joined the firm. The company gained a worldwide reputation for the manufacture of diving apparatus, decompression and observation chambers, and safety breathing apparatus of all types for use on the land, in the air and under the sea (including mine rescue, tunneling, aircraft, diving, submarine escape and in other hazardous environments). Close research and development links with the MOD (especially the Admiralty), also provided a lucrative outlet for the company products. In 1932, Robert Davis was knighted by King George V, principally for his invention of the ‘Davis Submerged Escape Apparatus’ (D.S.E.A.). Siebe Gorman essentially remained a family firm from the beginning (under A Siebe) until it became a public company for the first time in 1952. However, following WW2, British manufacturing stagnated through stifled investment and post-war austerity, and there was little innovation. Siebe Gorman fortunes began to decline as an ageing Sir Robert Davis failed to invest, or change the company business and management practices. In 1959, Siebe Gorman was acquired by the “Fairy Group” and the ailing Sir Robert was made Life President. Consequently, nothing changed and the slow decline continued until Sir Robert's death in March 1965. Around 1960, Siebe Gorman acquired the diving apparatus manufacturer C E Heinke, and for a brief period, it manufactured some diving equipment under the combined name of Siebe Heinke. Around 1964, Mr. E. 'Barry' Stephens was appointed as the new Managing Director to modernise Siebe Gorman. Changes were made, including a move to a new factory in Wales in 1975. The new company concentrated on fire fighting breathing apparatus and escape equipment, and the move coincided with the loss of many of the older, traditional craft skills. Between 1985 and 1998, Siebe expanded through acquisitions, and several other companies were acquired. The Siebe Gorman (diving apparatus) company has therefore traded as A. Siebe (1819-1870); Siebe & Gorman (1870-1879); Siebe Gorman & Co (1880-1904); Siebe Gorman & Co. Ltd (1905-1998).The compressor is a very significant item as it gives a snapshot into marine history and the development of diving equipment generally especially that used for salvage operations before and during WW2. Siebe & Gorman the company that made the equipment was a leading inventor, developer and innovator of marine equipment with its early helmets and other items eagerly sought after today for collections around the world. The items in the Flagstaff Hill collection give us an insight as to how divers operated and the dangers they faced doing a very necessary and dangerous job during the early days of marine exploration.A single cylinder divers' pump by Siebe Gorman & Co Ltd, London, eccentric hand cranked in brass mounted mahogany case with instructions to the underside of the lid, brass covered pressure gauge and air outlet, brass makers plaque to the front, water inlet and outlet to the rear, green painted lifting rings. Machinery has some blue painted areas on the metal.Plate on the back 'WATER SUPPLY" "WATER OVERFLOW" "WATER DRAIN-IN" Pressure gauge dial "BOURDON'S PRESSURE GAUGE" STEBE GORMAN & CO. LONDON", "LBS PRESSURE" "FEET OF SALT WATER" Plate on the front " PATENT, Siebe Gorman & Co Ltd Submarine Engineers" below emblem (Lion, Crown, Horse)flagstaff hill, warrnambool, flagstaff-hill, maritime-museum, diving compressor, london, siebe gorman & co ltd, marine technology, life saving, deep sea diving, maritime museum, maritime village, manine history

This diving suit with helmet, boots and weight is part of the E.G.Ward collection, along with the diving compressor and a photograph of a diver in this equipment. Siebe Gorman & Company Ltd was a British company that developed diving equipment and breathing equipment and worked on commercial diving and marine salvage projects. The company advertised itself as 'Submarine Engineers'. It was founded by Augustus Siebe, a German-born British engineer chiefly known for his contributions to diving equipment. Siebe Gorman traded as an engineering firm for over 180 years from 1819 to 1999. The early success of the business was due to its founder, the Prussian immigrant Christian 'Augustus' Siebe (1788-1872). For business reasons, he applied for and was granted British citizenship in 1856. He was a gifted engineer who was able to translate theoretical problems into practical, working products. During the industrial Victorian period, the business traded as 'A. Siebe' at 145 High Street Holborn London, but in 1828 new premises were acquired at 5 Denmark Street, Soho. The family firm produced a wide range of manufactured goods including paper-making machinery, measuring machinery, water pumps, refrigeration equipment and diving apparatus. Augustus Siebe specialised in submarine engineering early on and the company gained a reputation for the manufacture of safe, reliable diving apparatus. Augustus Siebe is best remembered for the development and manufacture of the ‘closed’ Diving Dress based on the ideas of Charles and John Deane, George Edwards and Charles Pasley. Apart from some small modifications to valves and diver communications, the basic 12-bolt ‘closed’ diving dress remained relatively unchanged after the 1870s. Later company successes were also based on innovation, with new products that could be successfully developed and manufactured to high standards. This was largely attributed to the inventive nature, foresight, engineering and entrepreneurial skills of Robert Henry Davis (1870-1965). In 1882, RH Davis joined the company of 'Siebe & Gorman' as a young 11-year-old office boy and he was to remain with the company until he died in 1965. Augustus Siebe retired in 1869 and handed over the company to a new partnership of Henry H. Siebe (1830-1885) and William A. O'Gorman (1834-1904). The new firm traded as 'Siebe & Gorman' (1870-1879) from premises in and around Mason Street, Westminster Bridge Road, Lambeth, London. The two partners soon recognised the potential of R.H. Davis and in 1894, aged 24, he became General Manager of Siebe & Gorman. Davis increasingly ran the company until the surviving partner (W.A. Gorman) died in 1904. The firm was disposed of to the Vickers (armaments) family and a new company 'Siebe Gorman & Co. Ltd.' (1905-1998) was formed. Under the chairmanship of Albert Vickers, R.H. Davis was kept on as Managing Director, and the company forged ahead. However, after WW1, the Great Depression caused manufacturing output and share prices to slump. In 1924 Robert Davis made a deal with the Vickers Board and acquired control of the company through majority shares. Under his leadership, the Siebe Gorman Company flourished and within time, four of his sons also joined the firm. The company gained a worldwide reputation for the manufacture of diving apparatus, decompression and observation chambers, and safety breathing apparatus of all types for use on the land, in the air and under the sea (including mine rescue, tunnelling, aircraft, diving, submarine escape and in other hazardous environments). Close research and development links with the MOD (especially the Admiralty), also provided a lucrative outlet for the company products. In 1932, Robert Davis was knighted by King George V, principally for his invention of the ‘Davis Submerged Escape Apparatus’ (D.S.E.A.). Siebe Gorman essentially remained a family firm from the beginning (under A.Siebe) until it became a public company for the first time in 1952. However, following WW2, British manufacturing stagnated through stifled investment and post-war austerity, and there was little innovation. Siebe Gorman fortunes began to decline as an ageing Sir Robert Davis failed to invest, or change the company business and management practices. In 1959, Siebe Gorman was acquired by the “Fairy Group” and the ailing Sir Robert was made Life President. Consequently, nothing changed and the slow decline continued until Sir Robert's death in March 1965. Around 1960, Siebe Gorman acquired the diving apparatus manufacturer C E Heinke, and for a brief period, it manufactured some diving equipment under the combined name of Siebe Heinke. Around 1964, Mr E. 'Barry' Stephens was appointed as the new Managing Director to modernise Siebe Gorman. Changes were made, including a move to a new factory in Wales in 1975. The new company concentrated on fire-fighting breathing apparatus and escape equipment, and the move coincided with the loss of many of the older, traditional craft skills. Between 1985 and 1998, Siebe expanded through acquisitions, and several other companies were acquired. The Siebe Gorman (diving apparatus) company has therefore traded as A. Siebe (1819-1870); Siebe & Gorman (1870-1879); Siebe Gorman & Co (1880-1904); Siebe Gorman & Co. Ltd (1905-1998).The items are very significant as a snapshot into marine history and the development of diving equipment generally especially that used for salvage operations before and during WW2. The company that made the equipment was a leading inventor,developer and innovator of marine equipment with its early helmets and other items eagerly sought after today for collections around the world. The items in the Flagstaff Hill collection give us an insight as to how divers operated and the dangers they faced doing a very necessary and dangerous job.Diving suit including helmet, boots and a weight. Diving suit is made of canvas with knitted cuffs. The helmet is metal. The boots have a thick sole and thick leather upper that is held on with leather straps and buckles. The toe of the boot is heavy metal. The weight is worn next to the trunk of the diver and it has an inscription to mark the front. It is worn with straps and buckles holding it in place. Royal Navy Admiralty Pattern 6 bolt No 3 light Siebe Gorman light diving helmet circa 1960 used by the Royal Navy before and after World War 2"Siebe Gorman & Co Ltd Marine Engineers London. Patent" with "E G Ward" on front and back plate. On weight "FRONT"flagstaff hill, warrnambool, diving suit, siebe gorman and co ltd., siebe gorman and co ltd marine engineers london, marine engineers, diving helmet, diving boots, diving weight, marine diving, maritimemuseum, maritime village, maritime history, marine technology, life saving, deep sea diving

John Hastie Engineer and millwright John Hastie opened small manufacturing works in Greenock in 1845 and 1853 patented the first self-holding steering gear. The firm became known as John, Hastie and Co. Ltd. in 1898 after taking on limited liability status and their main works were at Kilblain Street, Greenock, where they specialised in ships' steering gear. The company also occupied works at Rue End Street, Greenock. Plans of this unit depict a stockyard to the east, with areas for welding; fitting and assembly; flame, cutting and fabrication; and a machine bay. The company was dissolved in 1991. Brown Brothers Brown Bros Rosebank Ironworks made the steering gears for many large ship's, including The Titanic. Andrew Betts Brown the founder was born in 1741 and closely associated with many improvements in marine engineering. He was educated in his native city and served his apprenticeship as an engineer in the locomotive works of the North British Railway Company at St. Margaret's. During his apprenticeship, he attended the evening classes at Watt College. subsequently going to Manchester to study chemistry. He went to London around 1863 and took over an old brewery, which he converted into an engineering works. During his time there he invented an overhead travelling crane, which was used on the construction of Blackfriars Bridge London. He went on to develop plant which used steam and hydraulic power for discharging ships as a result the company was contracted to install this equipment in Hamburg Docks. ​ By around 1870 he continued to construct machinery in London but realised that conditions were more favourable in Edinburgh. He acquired land at Rosebank adjoining the North British Railway Company's line to Granton, and the necessary infrastructure was completed allowing him to finish the Hamburg contract. The works at Rosebank were eventually extended and added to until they became one of the largest engineering works in the East of Scotland. ​ Mr Brown was a member of numerous engineering institutions, the best known at the time being the Institution of Naval Architects. He was also a Fellow of the Royal Society of Edinburgh, a member of the Institute of Mechanical Engineers and of the Institution of Marine Engineers he died in 1906 at the age of 67.An item made by two marine innovators of marine auxiliary machinery and itemsShip's wheel, brass, attached to brass pillar. Base has 6 holes in it for securing it in place.. Top of ship's wheel pillar has a brass, adjustable, arrow pointer that is positioned over a dial etched into the flat brass surface. The dial reads " PORT STABD". Lines and degrees are marked, with '0' in centre and every 5 degrees, from 0-35, in both Port and Starboard sidesInscription to wheel hub "Brown Brothers & Co. Ltd, Rosebank Ironworks, Edinburgh"flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, john hastie, john hastie, andrew betts brown, ships wheel, ship steering gear, marine equipment

Digital scanFrom Vicrail News magazine, April 1983. “Duplication of the five-kilometre section of line between Ringwood and Croydon is on the way. Several major works will be undertaken over the next few months so the two tracks can be brought into service later this year. Intensive work on this section follows completion of duplication works between Ringwood and Bayswater on the Belgrave line last December. The completion of this 5.17 kilometre section between Ringwood and Bayswater means that this Belgrave line is now duplicated as far out as Ferntree Gully. Commuters using the Belgrave line now have an improved service with the intro duction in January of an additional evening peak train to Upper Ferntree Gully, two additional peak hour services in the morning from both Belgrave and Upper Ferntree Gully, and with the additional tracks delays on one line will not affect trains travelling in the opposite direction. Commenting on the completion of this stretch of track the Minister of Transport, Mr. Crabb, said a further improvement had been made with the commissioning of boom barriers at the Bedford Road level crossing in Ringwood. "The installation is part of the State Government's $9.4 million four-year plan to equip 70 dangerous level crossings throughout the State with boom barriers", he said. Works to be carried out on the Ringwood/ Croydon section include laying of new track, station works at Croydon and installation of boom barriers at East Ringwood. Already completed are bridge works to cater for double tracks at both Mt. Dandenong and Eastfield Roads between Croydon and East Ringwood and construction of an island platform at East Ringwood station. At several locations alignment of the existing track will be slightly relocated. The new line is being constructed with concrete sleepers and heavyweight rails. The existing line will also be reconstructed using these heavy 60kg per metre rails. Engineering works to be completed include installation of overhead wiring necessary to supply power to trains, construction of two new station buildings and a new platform at Croydon, provision of boom barriers, and pedestrian boom barriers at Dublin Road level crossing. East Ringwood, and replacement of existing timber overhead wire support structures with steel structures. Other works in this program included installation of boom barriers at Bedford Road, Ringwood and Scoresby Road, Bayswater and provision of a new platform for trains going to Melbourne and Heathmont. A new timetable on the Lilydale and Belgrave lines will commence when the Ringwood—Croydon duplication track work is completed.”

The Stony Creek Trestle Bridge was built in 1916 when the existing rail line from Melbourne to Bairnsdale was extended to Orbost. This 97km Bairnsdale to Orbost extension through rugged terrain was reputed to have been the most difficult rail project undertaken in Victoria. In service for over 60 years the bridge was damaged by bushfire in 1980, with the last train crossing in 1987. At 247m long and 20m high, it is the largest standing bridge of its kind in the State, and is listed on the Register of Historic Sites. Built of red ironbark and grey box timber, it is a fine example of the early engineering skills that utilised the resources and materials found on site. (More information Newsletter July 2013)Built during the period 1914-16, of Gippsland Grey Box and Red Ironbark, the Stoney Creek bridge on the East Gippsland Railway is a fine example of early engineering skilll , being constructed without the aid of any of the modern machinery available today. This is a rare photograph and of high significance in showing the bridge under construction.Landscape format black + white photograph (unframed). Four pin holes in each corner, tear to top left quadrant and fold / crease top to bottom in centre of image.construction, 1916, railway bridge, timber industry, trestle construction, stony creek bridge, east gippsland, bairnsdale to orbost line

In 1977 great efforts were being made to preserve this bridge, the highest trestle bridge in Victoria at Stoney Creek. The Stony Creek Trestle Bridge was built in 1916 when the existing rail line from Melbourne to Bairnsdale was extended to Orbost. This 97km Bairnsdale to Orbost extension through rugged terrain was reputed to have been the most difficult rail project undertaken in Victoria. In service for over 60 years the bridge was damaged by bushfire in 1980, with the last train crossing in 1987. At 247m long and 20m high, it is the largest standing bridge of its kind in the State, and is listed on the Register of Historic Sites. Built of red ironbark and grey box timber, it is a fine example of the early engineering skills that utilised the resources and materials found on site.The Bairnsdale to Orbost rail line contains the most varied range of timber & timber composite bridges on any Victorian line. The Stoney Creek bridge is listed on the Victorian Heritage Register for its architectural and historical significance.A black / white photograph of a very large trestle bridge. a steam locomotive, with loaded goods trucks, is on the bridge. stoney-creek trestle-bridge railway east-gippsland-railway

This ledger contains outward correspondence from the Shire of Warrnambool, Engineer from the period 1939-1941. It covers matters such as bridges, roads noxious weeds, drainage. It relates to areas of the shire such as Belfast, Allansford, Garvoc, Laang, Naringal, Peterborough and Penshurst. It mentions people by the names of Coleman, Brennan, Dyson, Hurley, Jordan, Gray, Sadler.This collection of letters provides a very good overview of issues and work covered in the period 1939-1941.Dark grey mottled card cover with light brown binding. Contains 5 letters to page, index. The copies of letters sent are on pink paper and numbered 1-500.Engineering Department is written in black on spine of journal.shire of warrnambool, letterbook, engineers letterbook, warrnambool

The drawing shows all the activity and building roles involved in building a bridge in 1877. The crossing of the Murray River was very important to citizens living in both Echua, but especially those living in Moama and in further NSW regions as it provided them with access to Victorian market regions. The bridge was built privately for Deniliquin farmers, but eventually opened up to the general public.This is significant because it represents the roles of different tradesmen in the construction industry in the late 19th Century. It also shows construction stages . Bridge pylons are being inserted into the fiver banks. It is also a very well produced drawing, the artist is anonymous, but very skilled.A photograph of a drawing of the construction of the bridge crossing the Murray River in 1877. The picture shows surveyors, construction workers, crane operators, hoists and a crane and much activity.Written on the back in pen are the numbers 6530. In pencil are the numbers 61/8"? and 10"?. Stamped on the back is a small rectangle with the words 'COPYRIGHT. This photograph may not be reproduced without permission in writing from the Editot of "The Age" 250 Spencer Street Melbourne, and 39/41 York St., Sydney.' written inside it.bridge works, murray river crossing, moama, echuca, orm cook collection, 'the age' newspaper., deniliquin farmers, engineering, bridge building, pylons, 1877

Date estimated to be circa 1912 based on the style of printing on the reverse of the card - Kodak Austral paper for real photo postcards, the paper was manufactured c.1908-1914 (See also POSTCARDS ON KODAK PAPER - IS IT POSSIBLE TO "DATE" THEM? http://tps.org.au/bb/viewtopic.php?t=115) Brougham Street was created in Josiah Holloway's 1851 subdivision of Little Eltham. It was one of several east-west streets shown on the subdivision plan as crossing the Diamond Creek. The western part was named Wellington Street on the subdivision plan but was later changed to conform with the name of the eastern part as acknowledgement of the continuity of the street. It is not known when the first bridge was constructed in Brougham Street however it was certainly mentioned at Council’s meeting of 2 June 1884 as being in a dangerous state of repair. This photo (c.1895) of an old bridge shows a very low-level simple log girder bridge crossing the creek at a right angle and so the approaches involved bends in the road alignment. This bridge was generally known as Kaylocks Bridge or Kaylock’s Crossing after the owner of the adjoining land. It was most likely built from around the mid-1850s, or a crossing of some fashion established as Richard George Kaylock, butcher of Little Eltham and his wife Emily Ann settled there in 1854. His property was in Wellington Street (now Brougham Street) and apparently extended across the Diamond Creek. The land on the western side of the creek was farmed, the house being on the eastern side. Kaylock's Bridge formed part of the original coach road to Eltham and in 1922 was described as an "old rustic bridge". Its low level and insubstantial construction made it susceptible to flood damage, necessitating frequent closures until repairs could be carried out. In September 1922, Council called for tenders for a new timber bridge to be constructed at Kaylock’s crossing. An engineering assessment carried out for the Council by Macleod Consulting at the time of the replacement suggested that the construction details indicate that it was in the 1900s, however this dating could possibly have been the result of numerous repairs undertaken over the years to flood damage. The tender was awarded to Mr Weller of Kangaroo Ground who commenced work in February 1923 on a higher-level timber trestle bridge. Work was slowed due to illness of the contractor and the accidental death of a man in March 1923 following the collapse of the bank after he had jumped into a hole that had just been blasted. The bridge was completed around July 1923 at which point the old structure was pulled up, marking what was described in the ‘Advertiser’ newspaper as the passing of an old and well-loved landmark in the district. In April 1924 the approach to Kaylocks bridge was washed away during the heavy flooding that destroyed the Main Road bridge. The western side was repaired, and an extra span was added to the eastern side using timber from the destroyed Main Road bridge. The bridge was again severely damaged four months later in August 1924 When a lack of finances delayed repairs to the Bridge Street bridge in 1931 (also referred to as Obelisk Bridge at the time), traffic had to detour via Brougham Street for some time. Local residents feared that the Bridge Street bridge might never reopen. Kaylocks Bridge was constantly subject to damage by floods. In the 1934 flood it was submerged by two feet of water. In more recent times the bridge was again severely damaged by flooding and repairs made. A new bridge and adjoining footbridge were constructed in 2009.Digital file only Postcards scanned from the collection of Michael Aitken on loan to EDHS, 2 Sep. 2022michael aitken collection, eltham, postcards, bridge, brougham street, diamond creek (creek), kaylocks bridge, wellington street

Believed to be four children all of the same family, most probably those of an Eltham Shire Council employee who worked for the Engineering department (see image 05584-8)Record of various Shire of Eltham infrastructure works undertaken during the period of 1952-1962 involving bridge and road reconstruction projects, sometimes with Eltham Shire Council Project Reference numbers quoted. It was during this period that a number of significant improvements were made to roads and new bridges constructed within the shire that remain in place as of present day (2022). In many situations, the photos provide a tangible visible record of infrastructure that existed throughout the early days of the Shire. The album was put together by or under the direction of the Shire Engineer, J.A. McDonald.shire of eltham, 1959-09, children

Date based on other similar display panels visible in images of the Shire of Eltham display at the Eltham Community Festival, 7 November 1987. 20 x 25 cm Shire of Eltham Engineering Department Providing the resources to undertake • Survey, design, consultation • Road construction and maintenance • Bridge construction and maintenance • Street sweeping • Drain and pit cleaning • Traffic engineering installation and maintenance • Garbage collection • Tip management, land reclamation and beautification • Maintenance of community buildings • Provision of community and recreation facilitiesunidentified, display panel, eltham festival, footpaths and gutters, infrastructure, residential, roads, shire of eltham, streets, 1987

Date based on other similar display panels visible in images of the Shire of Eltham display at the Eltham Community Festival, 7 November 1987. 20 x 25 cm Shire of Eltham Engineering Department Providing the resources to undertake • Survey, design, consultation • Road construction and maintenance • Bridge construction and maintenance • Street sweeping • Drain and pit cleaning • Traffic engineering installation and maintenance • Garbage collection • Tip management, land reclamation and beautification • Maintenance of community buildings • Provision of community and recreation facilitiesunidentified, display panel, eltham festival, footpaths and gutters, infrastructure, residential, roads, shire of eltham, streets, 1987

Date based on other similar display panels visible in images of the Shire of Eltham display at the Eltham Community Festival, 7 November 1987. 20 x 25 cm Shire of Eltham Engineering Department Providing the resources to undertake • Survey, design, consultation • Road construction and maintenance • Bridge construction and maintenance • Street sweeping • Drain and pit cleaning • Traffic engineering installation and maintenance • Garbage collection • Tip management, land reclamation and beautification • Maintenance of community buildings • Provision of community and recreation facilitiesunidentified, display panel, eltham festival, footpaths and gutters, infrastructure, residential, roads, shire of eltham, streets, 1987

Construction of the Main Road bridge over the Plenty River. Includes structural members, construction personnel, vehicles and a Clarke mobile crane.Local significanceBlack and white printlower plenty, main road, plenty river, bridge, bridge construction, civil engineering, cranes, mobile cranes

Report and photograph about purchase of historically significant slab cottage in Castle Road, Warrandyte. Newspaper also includes articles relating to Jock Macneish and his ultra-light aircraft, construction of foot bridge over Andersons Creek, Mrs Ruth Norman, Warrandyte Co-op, local results of the 1981 census, construction of elderly citizens' flats in Stiggant Street (Warrandyte), South Warrandyte Primary School, Professor's Hill and Warrandyte Football Club. The road guide features advertisments for Inglenook Tea Rooms, Warrandyte, Warrandyte Recreation Reserve Cafe (Mrs C. Miller, Proprietress), Eltham Motor Garage, Plaza Cafe Eltham, Eltham Park Team Rooms, Diamond Creek Garage and Engineering Works and The Dean Guesthouse Strathewen.Complete issue of "Warrandyte Diary" No 145, May 1984 with feature article headed "Historic cottage bought". 12 pages with section cut out of back page. Also includes photocopy of Broadbents Roadguide: central Victoria, 1946 pages 230-231HG Booklet 281981 census, advertisment, andersons creek, castle road, diamond creek garage and engineering works, eltham motor garage, eltham park team rooms, footbridge, harry gilham collection, inglenook tea rooms, jock macneish, mrs c. miller, mrs ruth norman, plaza cafe eltham, professor's hill, senior citizens, south warrandyte primary school, stiggant street, the dean guesthouse strathewen, warrandyte, warrandyte co-op, warrandyte football club, warrandyte recreation reserve cafe, warrandyte slab cottage

Yvonne's Dressmaking and Alteration Service at 942 Main Road. Formerly a bakery, the building was demolished in 1990 and is now the site of Hurstbridge Saddlery. The milkbar is down the road, brick wall with a blue sign on it. There's still an older house next to the milkbar, but that's hidden from view in this shot as it's further back from the road. Date based on other similar display panels visible in images of the Shire of Eltham display at the Eltham Community Festival, 7 November 1987. Shire of Eltham Engineering Department Providing the resources to undertake • Survey, design, consultation • Road construction and maintenance • Bridge construction and maintenance • Street sweeping • Drain and pit cleaning • Traffic engineering installation and maintenance • Garbage collection • Tip management, land reclamation and beautification • Maintenance of community buildings • Provision of community and recreation facilitiesPhoto print mounted on carddisplay panel, eltham festival, heidelberg-kinglake road, hurstbridge, hurstbridge milk bar, infrastructure, main road, mm, shire of eltham, yvonne's dressmaking and alteration service