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Federation University Historical Collection
Book, Victoria Education Gazette and Teachers' Aid, 1921-1930, 1921-1930
The Victoria Education Gazette and Teachers' Aid was published for Victoria's teachers and was sent to all school on the state. In 1920 The Ballarat School of Mines had donated 136 pounds 14 shillings and 10 pence to the Victorian Education Department's War Relief Account, and the Ballarat Junior Technical School had donated 10 pounds 6 shillings and 10 pence.Ten black hard covered volumes with red tape spine, covering 1921 to 1930. The gazettes include Education Department appointments, transfers, resignations and retirements, vacancies, notices, queries, notices of books, examination papers, original articles, lesson plans, suggestions for lessons, drawing, obituaries, notes on nature study, mathematics, music, sloyd woodwork, English grammar, Victorian State School Swimming Clubs, Geography, penmanship, science, History, Latin, Geography, The School Garden, horticulture, singing, World War One; ANZAC Day, lifesaving, Astronomy, Empire Day, ANZAC Buffet London, Victorian Education Department's War Relief Fund .1) 1928. Articles include: New Caledonia, Swimming and Lifesaving, School forestry, a visit to the pyramids, Exploration of Gippsland, paul de Strezelecki, Angus McMillan, Villers Bretonneux Memorial School, American Black Walnut, Red Gum, Messmate Stringybark, The Great Barrier Reef, retirement of Frank Tate, Stawell High School, Report on Some Aspects of Education in the United States, Jubilee Education Exhibition , New School Readers; measured Drawing Images include: Macarthur Street School's Plantation, Maryborough School Plantation, Pinus Insignis (Radiata) ready for Milling, Creswick State Forest, Metalwork, Daylesford Pine Plantation four years old, Henry Harvey (art Inspector); Omeo School Endowment Plantation; Frank Tate; Stawell High School Drawings From Casts; Lake Tyers School Endowment Plantation, measured drawing, Thomas H. Stuart, GEorge Swinburne. J.R. Tantham-Fryer, Cookery Class, John Edward Thomas. .3) War Savings Stampsm Swimming and Life-saving, Teh Rural School System of Victoria, Imaginative Composition, ANZAC Day, Retardation, Teh Bright Child Hudson Hard Obituary, Leeches, Relief for Distress in Europe, Dental, Teachers' Library, History of Portarlington, J.E. Stevens Obituary, Victorian Teachers in England Images: Swimming and Life-Saving Medallion .3) Swimming and Lifesaving, Bronze medallion, Victoria Leage of Victori, War Savings Stamps, Rural School Sytem of Victoria, .4) War Relief, Talbot Colony for Epileptics Masonmeadows, Discipline New and Old (Percy Samson), Soldier teachers, Preservation of Australian Birds, Arbor Day, Jubilee of Free Education, Teaching Geography, Poery in Schools, School Committees, Shelter Pavilion, Mysia Memorial School, Clovers, Jubilee Exhibition, Domestic Arts, Louis Pasteur, .5) Victoria League of Victoria, An Endowment Scheme (Pine Plantations), School Endowment Plantations, Protecting our trees by Owen Jones,. Victorian State Schools Horticultural Society, Sloyd Woodwork, School Forestry, Thomas Brodribb Obituary and portrait, Imperial Education Conference London, school Management and Method, School plantations, Eucalypt plantations in the Bendix and Heathcote District, Junior Red Cross, Jubilee Education Exhibition, Gould League Competitions, handwriting, The School Magazine, Frank Tate in London, Victorian beetles, Council of Public Education, Villers Bretonneux and its new School, Death of Samuel Summons, Woodwork Summer School, Swimming, Japanese Relief Fund, Retirement of John Cross, reminiscences of the Late Mr Albert Mattingley .6) Thomas H. Trengrove and the Villers Bretonneux School hall and pilaster carvings, forestry, visit of Maryborough teachers to Ballarat Water Reserves, noxious weeds, relief for Distressed Europe, The Dalton Plan, Empire Day, Retirement of Mr Fussell, Centenary of Hume and Hovell Expedition, League of Kindness, Effective Nature Study in a Rural School, Some Facts About Paper and their Bearing Upon School Plantations, Council of the Working Men's College Melbourne, Maria Montessori, University Vacation School, Horticulture in State Schools, An Informal Chat About French Schools (C.R. McRae), The Vacation School, Johann Heinrich Pestalozzi, Inspector's Report on a 5th-class School, Can Children Write Verse, John Adams, Victoria League of Victoria, R.F. Toutcher, Sir James Barbie's Address to High-School Girls, Impressions of a High School Teacher Abroad (R.D. Collman), The Spirit of the School Plantation Scheme, Monument of the Late Mr and Mrs A.T. Sharp at Box Hill Cemetery, The Teaching of Geography, The Treatment of Poetry in Class, Two Difficult Arithmetic Lessons, Location of Principal Australian Timbers, Dr John Smyth, Stammering and its Influence on Education, Wireless Broadcasting as an Educational Medium, Boys School at Villers Brettonneux, The New School at Villers Brettonneux, Bird Day, Messmate or Stringybark, What Every Woman Knows, Director's Report on Denmark .7)1925 . Includes: School Forestry, horticulture, J.H. Betheras retirement, Ivanhoe School, Coburg School, Moorabool Junior Technical School, Villers Bretonneux School hall and pilaster carvings, Francis Ormond, William Charles Kernot, Corsican Pnes at Creswick, Ballarat High School Plantation, Workin Men's College, RMIT, Naorrow LEafed Peppermint, Education and World Peace, Eucalypts of Victoria, John C. Eccles, Blue Gum. Manners, Giving the Poorly Nourished Boy A Chance, Native Ferns, Marybourough Technical School, Memorial School at Villers-Brettonneux .8) Experimental Plots in Country Schools (W.W. Gay), Villers Bretonneaux and its Memorial School. nominated classes for Art Teachers, The Teachers Act 1925, Horsham High School, Richmond Technical School, Farewell to Messrs C.R. Long and Ponsonby Carew-Smyth, Frank Tate, Phyiscal Training, Arbor Day, ANZAC Day, Shakespeare Day,Bendigo Junior Techncial School, Musical Appreciation, Motor Dental Unit, School Camps, Education Act of 1872: Mr Angus McKay's Part (George Mackay), A Bush Fire Experience (Irene Stable), Black Sunday, Californian Red Pine, Women's Education in America, Farewell to Lord and Lady Stradbroke, Grevilia Robusta, Silky Oak, Redwood, John E. Grant, The Need for Research (Donald Clark), Junior Drama, Ida D. Marshall, John Pounds, Australian Books, Fish Creek School, State Boundaries, History in the Curriculum, Ceramic Art in Australia (Percy E. Everett), Choice of School Songs, Tasmanian Beech, Should History be Taught on a National or an International Basis, Hydatid Disease, James Holland Obituary, Florrie Hodges, Queensland Maple, Post Bushfire Ruins at Fumina, Arbor Day at Fumina, Queensland Rosewood, Omeo Endowment Plantation, Bird Day, Junior Red Cross, Pioneers' Day, Edward Henty, Junior Technical Schools, Yellow Pine, History and Progress of Needlework, A.B.C. of Astronomy, Northumberland Mental tests, Queensland Red Cedar, Teh Globe Theatre, .9) 1927 includes The ABC of Astronomy, Atr Theatre, English Beech, Angus McMillan Art Pottery, School Singing, State Schools' Nursery, School endowment plantations, Making a Man, experimental proof of Charles's Law, John Smyth obituary and portrait, Linton Pine Planation, motivation of arithmetic, Women's Classes at Dookie, Swimming and Lifesaving, Pioneers Day, Drawing, Ballarat High School planation, biting fly, Tir-Na-N'og, John Byatt retirement and portrait, Technical Schools Conference at Daylesford, Ethel Osborne and portrait, library. Francis Thompson portrait, Adam Lindsay Gordon, Solar movement, motor transport, Liverpool Cathedral, Teh Story of the Cathedral, Bendigo School of Mines, Omeo School pine plantation, Egypt and the Nile, Self-Criticism Images include Ballarat High School Pine Plantation, Vale Park, Francis Ormond, Woking Men's College (RMIT), W.N. Kernot, A Stand of Corsican Pines at Creswick, Victoria .10) Some Remarks on the Relationship of the technical Schools to the University (Donald Clark) , Present Day Education in England , Memorial to Joseph Cornwall, Spelling, motivation, Singing, State Scholarships, Agriculture, T.W. Bothroyd, The Swimmer - A Summer School Sketch (H.H. Croll), Swimming woodwork, Farewell to Dr Sutton. ,Drowning, War Savings Movement, White Beech. George S. Browne , Example of School Honor Book, Blackwood, Optimistic teacher, Soldier settlement around Shapparton, Oral Hygiene, Cinema Machines, Basketball, Wakter M. Camble obituary, ANZAC day Pilgrimage in England, Froebel's System, Montessori Method, War Relief Fund, New Zealand Kauri Tree, Bat Tenis at a Bush School., Advice to Australian Girls, Chrysanthemums, Royal Visit, National Parks of Victoria, Maurice Copland Obituary, total eclipse of the Moon, School libraries, The teacher and the COmmunity (A.M. Barry), The Reading Lesson, Swimming and Life-saving, MElbourne Teachers' College War Memorial Windows Old Trainees War Memorial, Cultivating a Natinoal Art education gazette, school, education, teaching, teacher, world war one, school plantations, macarthur street pine plantation, school forestry, creswick state forest, anzac day, armistance celebrations, frank tate, frank tate retirement, drawing from cast, education department school readers, lake tyers pine plantation, w.n. kernot, rmit, working men's college, francis ormond, pine plantations, calenbeem park, creswick, villers-brettonneux school hall and carvings, thomas trengrove, corsican pines, creswick, pine endowment plantations, mccarthur st primary school pine plantation, ballarat high school pine plantation, vale park, mount pleasant primary school pine plantation, golden point pine plantation, angus macmillan, paul de strzelecki, gippsland, villers-bretonneaux memorial school, francis thompson, english ash, pestalozzi centenary, shakespeare day, swimming classes, clear pine, cinema in education, american black walnut, red gum, thomas wolliam bothroyd obituary, and portrait, physical training displays, teaching of spelling, ohm's law, blue gum -
Flagstaff Hill Maritime Museum and Village
Functional object - Portmanteau, 1930-1950
The etymology of the word portmanteau: A portmanteau was a travelling bag used as a mailbag. During the eighteenth and nineteenth centuries, both newspapers and letters were transported in these leather mailbags that opened into two sections. A portmanteau is a word created by the blending of two other words in terms of the sounds and meaning. Portmanteau itself is a portmanteau; made up of the French ‘porter’ meaning ‘to carry’ and ‘manteau’ meaning ‘cloak’. The other meaning of this word is ‘a travelling case or bag' but was coined by Lewis Carroll with its new meaning in 1882. History: English merchant Thomas Witherings established mail routes throughout Europe in the 1620s. He drew up a proposal in 1635 for an English mail system based in London in which portmanteaux (containing 2 leather bags lined with cotton) could travel to European towns with sealed bags of mail for protection against spies. The system was put into motion and some 26,000 letters were mailed safely and unopened between London and European towns each week. In the nineteenth century, the official portmanteau was used to carry the mail, letters and newspapers on Americas New England stagecoaches that travelled the postal routes. Before 1789 newspapers were mostly excluded from the mail and the official portmanteau. After the first United States Congress (1789–1791) the postmaster general allowed printers free postage to communicate reports and articles of Congressional informational newspapers with other publishers in other towns and cities for distribution. Example of a mid-20th-century leather bag not connected to a person of significance from history or a historic event. The significance lies in the historic social aspect of this type of bag and how it got its name. This type of bag was popular from the mid 19th century for personal use and fell out of favour in until the 1950s and the origin and meaning of the word used to describe this type of leather bag "portmanteau". Portmanteau leather bag, with brass oval badge, tan interior with compartment separator. Inscribed "Allchin Bros Makers Ballarat". flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, portmanteau, allchin bros -
Flagstaff Hill Maritime Museum and Village
Functional object - Travel Trunk, 1890-1920
Steamer trunks (named after their location of storage in the cabin of a steamship, or "steamer") which are sometimes referred to as flat-tops, first appeared in the late 1870s, although the greater bulk of them date from the 1880–1920 period. They are distinguished by either their flat or slightly curved tops and were usually covered in canvas, leather or patterned paper and about (36 cm) tall to accommodate steamship luggage regulations. Steamer trunks were originally called a cabin trunk. An orthodox name for this type of trunk would be a "packer" trunk, but since it has been widely called a steamer for so long, it is now a hallmark of the style. A trunk, also known as a travel trunk, is a large cuboid container designed to hold clothes and other personal belongings. They are most commonly used for extended periods away from home. Trunks are differentiated from chests by their more rugged construction due to their intended use as luggage, instead of storage. Among the many styles of trunks, there are Jenny Lind, Saratoga, monitor, steamer or Cabin, barrel-staves, octagon or bevel-top, wardrobe, dome-top, barrel-top, wall trunks, and even full dresser trunks. These differing styles often only lasted for a decade or two and along with the hardware can be extremely helpful in dating an unmarked trunk. Although trunks have been around for thousands of years in China and elsewhere, the most common styles seen and referred to today date from the late 18th century to the early 20th century when they were supplanted in the market by the cost-effective and lighter suitcase. There were hundreds of trunk manufacturers in the United States and a few of the larger and well-known companies were Rhino Trunk & Case, C.A. Taylor, Haskell Brothers, Martin Maier, Romadka Bros, Goldsmith & Son, Crouch & Fitzgerald, M. M. Secor, Winship, Hartmann, Belber, Oshkosh, Seward, and Leatheroid. One of the largest American manufacturers of trunks at one point the Seward Trunk Co. of Petersburg, Virginia still makes them for school and camp, and another company Shwayder Trunk Company of Denver, Colorado would eventually become Samsonite. Another is the English luxury goods manufacturer H.J. Cave trading since 1839. Their Osilite trunk was used by such famous customers as T.E. Lawrence and Ruth Vincent Some of the better known French trunk makers were Louis Vuitton, Goyard, Moynat, and Au Départ. Only a few remain with the most prominent US company being Rhino Trunk and Case, Inc who probably manufacture more trunks than any company in the world.A snapshot into our social history regards how travel was undertaken over a hundred years ago and how people travelled so differently than today as they often packed for extended travel on ships. Travel then was so different with people having to pack a very large wardrobe of clothes to last for some time possibly for months overseas. The subject item looks like it was of military issue and was used for travel during the first world war by a military man from Victoria and was one of six similar trunks. This assessment is based on the type of locks used the trunk itself could have been made in America or Britain as the locks used in both countries came from American lock makers.Trunk wooden large covered with leather wood cleats and brass locks, also unreadable tableIn white paint "H Onvett, 6 of 7 and bottom right of front the number 6 (Owner)flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, trunk -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone in two pieces. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whale bones, whale skeleton, whales, whale bone, corsets, toys, whips -
Flagstaff Hill Maritime Museum and Village
Tool - Bench Saw Vice, Henry Disston & Sons, 1910 -1925
The subject item is a saw blade sharpening clamp that attaches to a bench allowing the operator to sharpen the teeth on a saw with a file while keeping the saw blade in an upright position. Henry Disston (1819–1878) began his career as an American saw maker in Philadelphia. He emigrated from England in 1833 and started making saws and squares in 1840. In 1850, he founded the company that would become the largest saw maker in the world the ”Keystone Saw Works” on the Delaware River. Some five years later, Disston built a furnace possibly the first melting plant for steel in America and began producing the first crucible saw steel ever made in the United States. While his competitors were buying good steel from Britain, he was making his own, to his specification, for his own needs. Disston subsequently constructed a special rolling mill exclusively for saw blades. Over the following decade, the Disston company continued to grow, even while dedicating itself to the Union Army's war effort. In 1865, when his son Hamilton Disston rejoined the business after serving in the Civil War, Disston changed the company's name to Henry Disston & Son. Henry Disston and his sons set the standards for American saw makers, both in terms of producing high-quality saws and developing innovative manufacturing techniques. Disston also started making files in 1865. In September 1872, Henry Disston and two other men dug a part of the foundation for what was to become the largest saw manufacturing facility in the world: Disston Saw Works. This was in the Tacony section of Philadelphia. Having previously moved his expanding business from near Second and Market Streets to Front and Laurel Streets, Disston sought to establish his business away from this cramped area. It took over 25 years to move the entire facility to Tacony. This Philadelphia neighborhood seems to have been the only company town in the United States established within an existing city. At its peak of operations, Disston Saw Works employed 8,000 people and the factory covered 300 acres. The company, known as Henry Disston and Sons, Inc by the early 20th century, cast the first crucible steel in the nation from an electric furnace in 1906. The firm's Armour plate building near Princeton Avenue and Milnor Street contributed tremendously to the World War II effort. But the company's innovation and industriousness would not last forever. In 1955, with mounting cash-flow problems and waning interest on the family's part to run the firm, Henry Disston and Sons were sold to the H.K. Porter Company of Pittsburgh. Porter's Disston Division was sold in 1978 and became the Henry Disston Division of Sandvik Saw of Sweden. This division was then sold in 1984 to R.A.F. Industries of Philadelphia and became known as Disston Precision Incorporated, a maker of specialized flat steel products. In 2013, R.A.F. Industries sold Disston Precision Inc. in a private sale. Although the company has ceased making Disston handsaws, the Disston brand name still exists in this firm. A significant American company that pioneered the making of high-quality steel and saws along with other tools and accessories. The subject item is significant as it was made at a time when the company was in its hay day. Adjustable Ball & Socket Saw Sharpening vice, cast iron, with clamp to attach to a workbench. Made by Henry Disston & Co. No 1 painted greyflagstaff hill, warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, saw clamp, henry disston & sons, saw sharpening, tool accessories, wood saws -
Flagstaff Hill Maritime Museum and Village
Functional object - Steamer Trunk, 1880-1925
Steamer trunks (named after their location of storage in the cabin of a steamship, or "steamer") which are sometimes referred to as flat-tops, first appeared in the late 1870s, although the greater bulk of them date from the 1880–1920 period. They are distinguished by either their flat or slightly curved tops and were usually covered in canvas, leather or patterned paper and about (36 cm) tall to accommodate steamship luggage regulations. Steamer trunks were originally called a cabin trunk. An orthodox name for this type of trunk would be a "packer" trunk, but since it has been widely called a steamer for so long, it is now a hallmark of the style. A trunk, also known as a travel trunk, is a large cuboid container designed to hold clothes and other personal belongings. They are most commonly used for extended periods away from home. Trunks are differentiated from chests by their more rugged construction due to their intended use as luggage, instead of storage. Among the many styles of trunks, there are Jenny Lind, Saratoga, monitor, steamer or Cabin, barrel-staves, octagon or bevel-top, wardrobe, dome-top, barrel-top, wall trunks, and even full dresser trunks. These differing styles often only lasted for a decade or two and along with the hardware can be extremely helpful in dating an unmarked trunk. Although trunks have been around for thousands of years in China and elsewhere, the most common styles seen and referred to today date from the late 18th century to the early 20th century when they were supplanted in the market by the cost-effective and lighter suitcase. There were hundreds of trunk manufacturers in the United States and a few of the larger and well-known companies were Rhino Trunk & Case, C.A. Taylor, Haskell Brothers, Martin Maier, Romadka Bros, Goldsmith & Son, Crouch & Fitzgerald, M. M. Secor, Winship, Hartmann, Belber, Oshkosh, Seward, and Leatheroid. One of the largest American manufacturers of trunks at one point the Seward Trunk Co. of Petersburg, Virginia still makes them for school and camp, and another company Shwayder Trunk Company of Denver, Colorado would eventually become Samsonite. Another is the English luxury goods manufacturer H.J. Cave trading since 1839. Their Osilite trunk was used by such famous customers as T.E. Lawrence and Ruth Vincent Some of the better known French trunk makers were Louis Vuitton, Goyard, Moynat, and Au Départ. Only a few remain with the most prominent US company being Rhino Trunk and Case, Inc who probably manufacture more trunks than any company in the world.A snapshot into our social history regards how travel was undertaken over a hundred years ago and how people travelled so differently than today as they often packed for extended travel on ships. Travel then was so different with people having to pack a very large wardrobe of clothes to last for some times months overseas.Trunk rectangular with wood ribs and metal strips for reinforcing. Covered with canvas and has 3 locking devices. Also has leather handles at ends.On lock inscription Eagle lock Co.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
Functional object - Portmanteau
The etymology of the word portmanteau: A portmanteau was a travelling bag used as a mailbag. During the eighteenth and nineteenth centuries, both newspapers and letters were transported in these leather mailbags that opened into two sections. A portmanteau is a word created by the blending of two other words in terms of the sounds and meaning. Portmanteau itself is a portmanteau; made up of the French ‘porter’ meaning ‘to carry’ and ‘manteau’ meaning ‘cloak’. The other meaning of this word is ‘a travelling case or bag' but was coined by Lewis Carroll with its new meaning in 1882. History: English merchant Thomas Witherings established mail routes throughout Europe in the 1620 s. He drew up a proposal in 1635 for an English mail system based in London in which portmanteau (containing 2 leather bags lined with cotton) could travel to European towns with sealed bags of mail for protection against spies. The system was put into motion and some 26,000 letters were mailed safely and unopened between London and European towns each week. In the nineteenth century, the official portmanteau was used to carry the mail, letters and newspapers on Americas New England stagecoaches that travelled the postal routes. Before 1789 newspapers were mostly excluded from the mail and the official portmanteau. After the first United States Congress (1789–1791) the postmaster general allowed printers free postage to communicate reports and articles of Congressional informational newspapers with other publishers in other towns and cities for distribution. Example of a mid-20th-century leather bag not connected to a person of significance from history or a historic event. The significance lies in the historic social aspect of this type of bag and how it got its name. This type of bag was popular from the mid 19th century for personal use and fell out of Portmanteau soft leather bag with lock, leather handles (one broken) and with metal plate on front.No inscription 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
Animal specimen - Whale bone, Undetermined
Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070. Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone vertebrae. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Flagstaff Hill Maritime Museum and Village
Functional object - Platform Scales, Thaddeus Fairbanks, 1880-1910
Thaddeus Fairbanks (1796 –1886) was an American inventor. of heating and cook stoves, cast iron ploughs, and other items. His greatest success was the invention and manufacture of the platform scale, which allowed the weighing of large objects accurately. Fairbanks was born in Brimfield, Massachusetts, on January 17, 1796, the son of Joseph Fairbanks (1763–1846) and Phebe (Paddock) Fairbanks (1760–1853). His uncle was Ephraim Paddock, the brother of Phebe Paddock. In 1815 he moved to St. Johnsbury, Vermont, and set up a wheelwright's shop above his father's gristmill. In 1820 he married Lucy Peck Barker and In 1824 he built an iron foundry. his brother Erastus joined him to establish E. and T. Fairbanks, a partnership to manufacture heating stoves, cast iron ploughs a design for which he patented in 1826. In 1830 Fairbanks and Erastus became interested in the raising and processing of hemp. Fairbanks went on to patent a hemp and flax dressing machine and became the manager of the St. Johnsbury Hemp Company. He also built a set of scales that would measure large loads of hemp accurately, as there were no reliable scales at the time. Upon the success of building these scales, his brothers recommended that he make and sell these for general use. Fairbanks' most famous invention then became the platform scale for weighing heavy objects. These are commonly known as the Fairbanks Scales, for which he patented his original design in 1830. Before this time, accurate weighing of objects required hanging them from a balancing beam as a result, particularly heavy or ungainly objects could not be weighed accurately. A platform scale, if large enough, could weigh an entire wagon. By placing a full wagon on the scale, unloading it, and then placing it on the scale when empty, it became possible to easily and accurately calculate the weight and value of farm produce and other loads. In 1834 Fairbanks and his brother formed "E. and T. Fairbanks and Company" to manufacture and sell these platform scales. These scales were well known in the United States and around the world resulting in the company doubling in volume every three years from 1842 to 1857. There was a temporary slow down during the American Civil War, however, the business took off again after the war. Their partnership was incorporated in 1874 into a firm known as "Fairbanks Scale Company". These platform scales revolutionized weighing methods of large loads and have been in use ever since. Portable platform scales are found in almost every hardware store, physician's office, and manufacturing factory throughout the United States and the world. The first railway track platform scale patent was granted to Fairbanks on January 13, 1857, as Patent No. 16,381. In 1916 the company was purchased by ”Fairbanks, Morse and Company”. Ownership of the company has since changed several times, but Fairbanks Scales continue to be made in St. Johnsbury Vermont to this day. Fairbanks had received 43 patents in his lifetime with the last one at the age of 91. He died on April 12, 1886, and is buried at St. Johnsbury, Vermont, at the Mount Pleasant Cemetery. An early example circa 1900 of the first type of platform scales used in a grocery store. This design for accurately measuring goods that were sold over the counter revolutionised the weighing of goods throughout the world. Platform scale metal black with removable tray & pan. Has horizontal brass arm with a brass slide weight black removable weight hook and 2 x 2 lb. weights. Fairbanksflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village -
Flagstaff Hill Maritime Museum and Village
Tool - Saw gauge, Henry Disston, 1890-1920
Disston Saw Works of Philadelphia was one of the better known and highly regarded manufacturers of handsaws in the United States. During the Machine Age, the company was known as Henry Disston & Sons, Inc. a supplier of industrial saw blades. History: The story of handsaws in the United States mirrors the technical and development of steel in Sheffield, England, which was the center of handsaw production during the 18th century and through most of the 19th century. England's political and economic lock-on steel making in the colonies held American saw makers at bay until well after the Revolutionary War. American steel producers were unable to compete until the US government introduced import tariffs to level the playing field in 1861. Henry Disston: Henry Disston (1819–1878) began his career as an American saw maker in Philadelphia. He had emigrated from England in 1833 and started making saws and squares in 1840. In 1850, he founded the company that would become the largest saw maker in the world, the Keystone Saw Works. Some five years later, Disston built a furnace—perhaps the first melting plant for steel in America and began producing the first crucible saw steel ever made in the United States. While his competitors were buying good steel from Britain, he was making his own, to his specification, for his own needs. Disston subsequently constructed a special rolling mill exclusively for saw blades. Over the following decade, the Disston company continued to grow, even while dedicating itself to the Union Army's war effort. In 1865, when his son Hamilton Disston rejoined the business after serving in the Civil War, Disston changed the company's name to Henry Disston & Son. Henry Disston and his sons began to set the standards for American saw makers, both in terms of producing high-quality saws and files in 1865 through his development of innovative manufacturing techniques. In September 1872, Henry Disston and two other men dug a part of the foundation for what was to become the largest saw manufacturing facility in the world: Disston Saw Works. This was in the Tacony section of Philadelphia. Having previously moved his expanding business from near Second and Market Streets to Front and Laurel Streets. It took over 25 years to move the entire facility to Tacony. Henry Disston was renowned for having one of the first industries that exhibited environmental responsibility, as well as a paternalistic view towards his employees. For example, he had thousands of homes built in Tacony for his workmen. Funds to purchase these homes were made available through a building and loan association set up by the Disston firm. His caring influence on the community was evident in everyday life. To meet employees' cultural needs, a hall and a library were built with Henry Disston agreeing to pay a fixed sum towards its maintenance. The Tacony Music Hall was erected in 1885, also with the assistance of Disston money. Henry Disston had fallen ill by 1877 and never truly recovered; he suffered a stroke and died the next year. This came only one and a half years after seeing his products receive the highest honors at the great Philadelphia Centennial Exposition of 1876. His vision of a working-class community and the completion of the transfer of his enormous saw plant was carried out by his wife and his sons. The company, by the early 20th century, cast the first crucible steel in the nation from an electric furnace in 1906. The firm's armor-plate building near Princeton Avenue and Milnor Street contributed tremendously to the World War II effort. But the company's innovation and industriousness would not last forever. In 1955, with mounting cash-flow problems and waning interest on the family's part to run the firm, Henry Disston and Sons were sold to the H.K. Porter Company of Pittsburgh. Porter's Disston Division was sold in 1978 and became the Henry Disston Division of Sandvik Saw of Sweden. This division was then sold in 1984 to R.A.F. Industries of Philadelphia and became known as Disston Precision Incorporated, a maker of specialized flat steel products. In 2013, R.A.F. Industries sold Disston Precision Inc. in a private sale. Although the company has ceased making Disston handsaws, the Disston brand name still exists in this firm. A tool used to set and sharpen cross cut saws used to fell trees for building construction made by a well known American maker whos firm pioneered the making of saws and their related items including files.combination cross cut saw raker and gauge/jointerDisston USA in the castingflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Personal Effects, safety razor blade 'King Gillette'', 20thc
King Camp Gillette observed in 1902 that as existing, relatively expensive, razor blades dulled quickly and needed continuous sharpening, a razor whose blade could be thrown away when it dulled would meet a real need and likely be profitable. Safety razors had been developed in the mid-19th century, but still used a forged blade that dulled and rusted. In the 1870s, the Kampfe Brothers ( Germany) introduced a type of safety razor Gillette improved these earlier safety-razor designs, and introduced the high-profit-margin stamped razor blade steel blade. Gillette's innovation was the thin, inexpensive, disposable blade of stamped steel. Gillette's safety razor retailed for a substantial $5 half the average working man's weekly pay — yet sold by the millions. The most difficult part of development was engineering the blades, as thin, cheap steel was difficult to work and sharpen. This accounts for the delay between the initial idea and the product's introduction. To sell the product, Gillette founded the American Safety Razor Company on September 28, 1901 (changing the company's name to Gillette Safety Razor Company in July 1902). Gillette obtained a trademark registration (0056921) for his portrait and signature on the packaging. Production began in 1903, when he sold a total of 51 razors and 168 blades. The following year, he sold 90,884 razors and 123,648 blades, thanks in part to Gillette's low prices, automated manufacturing techniques and good advertising. By 1908, the corporation had established manufacturing facilities in the United States, Canada, England, France and Germany. Razor sales reached 450,000 units and blade sales exceeded 70 million units in 1915. In 1918, when the U.S. entered World War I, the company provided all American soldiers with a field razor set, paid for by the government, and as they were allowed to take them at discharge they continued their use of this product thus ensuring future sales. The company continues in the present day as the Gillette brand of Procter & Gamble, USA. Throughout the 20thC most men used this type of safety razor with disposable stainless steel razor blades to shave their beards prior to the introduction of affordable electric razors in 1960'sA blue packet of unused 'King Gillette' safety razor blades.on top of packet; Press with thumb / and snap end open / GILLETTE QUALITY THE / SAME THE WORLD OVER / FACTORIES IN / USA / CANADA , GREAT BRITAIN / MEXICO , FRANCE / COLUMBIA, GERMANY / BRAZIL, SPAIN / ARGENTINA, AUSTRALIA / GILLETTE TRADE MARK / KING C GILLETTE / RED. TRADE MARKS / GILLETTE (AUST.) PTY. LIMITED / MELBOURNE / DE 2023 / MADE IN AUSTRALIA / shaving equipment, safety razors, gillette king, proctor & gamble, moorabbin, bentleigh, cheltenham, -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Souvenir - Souvenir and Official Programme 'American Fleet Reception', Punch, Melbourne, 29 Aug 1908, Punch, Printed by the Publishers of ‘Punch’ Australia, c1908
... that was welcomed by the early settlers in Victoria. american fleet united ...The American fleet was invited to visit Australia by Prime Minister Deakin. The fleet moved from port to port and was welcomed with enthusiasm.A souvenir of the visit by the American Fleet in 1908 that was welcomed by the early settlers in Victoria.Quarto, pictorial wrappers, 64 pp, illustrated. Front cover illustration by Will Dyson, further illustrations by Ruby Lindsay and Alek Sass. The first 16 pages of the programme are taken up by advertisements for Victorian businesses.SOUVENIR / and OFFICIAL PROGRAMME / American Fleet Reception / Victoria 1908 / / Printed by the Publishers of ‘Punch’ Australia Price sixpenceamerican fleet, united states navy, prime minister deakin, early settlers, pioneers, moorabbin shire, moorabbin, brighton, cheltenham, federation of australia -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Flagstaff Hill Maritime Museum and Village
Animal specimen - Whale bone, Undetermined
Prior to carrying out a detailed condition report of the cetacean skeletons, it is useful to have an understanding of the materials we are likely to encounter, in terms of structure and chemistry. This entry invites you to join in learning about the composition of whale bone and oil. Whale bone (Cetacean) bone is comprised of a composite structure of both an inorganic matrix of mainly hydroxylapatite (a calcium phosphate mineral), providing strength and rigidity, as well as an organic protein ‘scaffolding’ of mainly collagen, facilitating growth and repair (O’Connor 2008, CCI 2010). Collagen is also the structural protein component in cartilage between the whale vertebrae and attached to the fins of both the Killer Whale and the Dolphin. Relative proportions in the bone composition (affecting density), are linked with the feeding habits and mechanical stresses typically endured by bones of particular whale types. A Sperm Whale (Physeter macrocephalus Linnaeus, 1758) skeleton (toothed) thus has a higher mineral value (~67%) than a Fin Whale (Balaenoptera physalus Linnaeus, 1758) (baleen) (~60%) (Turner Walker 2012). The internal structure of bone can be divided into compact and cancellous bone. In whales, load-bearing structures such as mandibles and upper limb bones (e.g. humerus, sternum) are largely composed of compact bone (Turner Walker 2012). This consists of lamella concentrically deposited around the longitudinal axis and is permeated by fluid carrying channels (O’Connor 2008). Cancellous (spongy) bone, with a highly porous angular network of trabeculae, is less stiff and thus found in whale ribs and vertebrae (Turner Walker 2012). Whale oil Whales not only carry a thick layer of fat (blubber) in the soft tissue of their body for heat insulation and as a food store while they are alive, but also hold large oil (lipid) reserves in their porous bones. Following maceration of the whale skeleton after death to remove the soft tissue, the bones retain a high lipid content (Higgs et. al 2010). Particularly bones with a spongy (porous) structure have a high capacity to hold oil-rich marrow. Comparative data of various whale species suggests the skull, particularly the cranium and mandible bones are particularly oil rich. Along the vertebral column, the lipid content is reduced, particularly in the thoracic vertebrae (~10-25%), yet greatly increases from the lumbar to the caudal vertebrae (~40-55%). The chest area (scapula, sternum and ribs) show a mid-range lipid content (~15-30%), with vertically orientated ribs being more heavily soaked lower down (Turner Walker 2012, Higgs et. al 2010). Whale oil is largely composed of triglycerides (molecules of fatty acids attached to a glycerol molecule). In Arctic whales a higher proportion of unsaturated, versus saturated fatty acids make up the lipid. Unsaturated fatty acids (with double or triple carbon bonds causing chain kinks, preventing close packing (solidifying) of molecules), are more likely to be liquid (oil), versus solid (fat) at room temperature (Smith and March 2007). Objects Made From the Whaling Industry We all know that men set forth in sailing ships and risked their lives to harpoon whales on the open seas throughout the 1800s. And while Moby Dick and other tales have made whaling stories immortal, people today generally don't appreciate that the whalers were part of a well-organized industry. The ships that set out from ports in New England roamed as far as the Pacific in hunt of specific species of whales. Adventure may have been the draw for some whalers, but for the captains who owned whaling ships, and the investors which financed voyages, there was a considerable monetary payoff. The gigantic carcasses of whales were chopped and boiled down and turned into products such as the fine oil needed to lubricate increasing advanced machine tools. And beyond the oil derived from whales, even their bones, in an era before the invention of plastic, was used to make a wide variety of consumer goods. In short, whales were a valuable natural resource the same as wood, minerals, or petroleum we now pump from the ground. Oil From Whale’s Blubber Oil was the main product sought from whales, and it was used to lubricate machinery and to provide illumination by burning it in lamps. When a whale was killed, it was towed to the ship and its blubber, the thick insulating fat under its skin, would be peeled and cut from its carcass in a process known as “flensing.” The blubber was minced into chunks and boiled in large vats on board the whaling ship, producing oil. The oil taken from whale blubber was packaged in casks and transported back to the whaling ship’s home port (such as New Bedford, Massachusetts, the busiest American whaling port in the mid-1800s). From the ports it would be sold and transported across the country and would find its way into a huge variety of products. Whale oil, in addition to be used for lubrication and illumination, was also used to manufacture soaps, paint, and varnish. Whale oil was also utilized in some processes used to manufacture textiles and rope. Spermaceti, a Highly Regarded Oil A peculiar oil found in the head of the sperm whale, spermaceti, was highly prized. The oil was waxy, and was commonly used in making candles. In fact, candles made of spermaceti were considered the best in the world, producing a bright clear flame without an excess of smoke. Spermaceti was also used, distilled in liquid form, as an oil to fuel lamps. The main American whaling port, New Bedford, Massachusetts, was thus known as "The City That Lit the World." When John Adams was the ambassador to Great Britain before serving as president he recorded in his diary a conversation about spermaceti he had with the British Prime Minister William Pitt. Adams, keen to promote the New England whaling industry, was trying to convince the British to import spermaceti sold by American whalers, which the British could use to fuel street lamps. The British were not interested. In his diary, Adams wrote that he told Pitt, “the fat of the spermaceti whale gives the clearest and most beautiful flame of any substance that is known in nature, and we are surprised you prefer darkness, and consequent robberies, burglaries, and murders in your streets to receiving as a remittance our spermaceti oil.” Despite the failed sales pitch John Adams made in the late 1700s, the American whaling industry boomed in the early to mid-1800s. And spermaceti was a major component of that success. Spermaceti could be refined into a lubricant that was ideal for precision machinery. The machine tools that made the growth of industry possible in the United States were lubricated, and essentially made possible, by oil derived from spermaceti. Baleen, or "Whalebone" The bones and teeth of various species of whales were used in a number of products, many of them common implements in a 19th century household. Whales are said to have produced “the plastic of the 1800s.” The "bone" of the whale which was most commonly used wasn’t technically a bone, it was baleen, a hard material arrayed in large plates, like gigantic combs, in the mouths of some species of whales. The purpose of the baleen is to act as a sieve, catching tiny organisms in sea water, which the whale consumes as food. As baleen was tough yet flexible, it could be used in a number of practical applications. And it became commonly known as "whalebone." Perhaps the most common use of whalebone was in the manufacture of corsets, which fashionable ladies in the 1800s wore to compress their waistlines. One typical corset advertisement from the 1800s proudly proclaims, “Real Whalebone Only Used.” Whalebone was also used for collar stays, buggy whips, and toys. Its remarkable flexibility even caused it to be used as the springs in early typewriters. The comparison to plastic is apt. Think of common items which today might be made of plastic, and it's likely that similar items in the 1800s would have been made of whalebone. Baleen whales do not have teeth. But the teeth of other whales, such as the sperm whale, would be used as ivory in such products as chess pieces, piano keys, or the handles of walking sticks. Pieces of scrimshaw, or carved whale's teeth, would probably be the best remembered use of whale's teeth. However, the carved teeth were created to pass the time on whaling voyages and were never a mass production item. Their relative rarity, of course, is why genuine pieces of 19th century scrimshaw are considered to be valuable collectibles today. Reference: McNamara, Robert. "Objects Made From the Whaling Industry." ThoughtCo, Jul. 31, 2021, thoughtco.com/products-produced-from-whales-1774070.Whale bone was an important commodity, used in corsets, collar stays, buggy whips, and toys.Whale bone piece. Advanced stage of calcification as indicated by deep pitting. Off white to grey.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, whales, whale bone, corsets, toys, whips -
Bendigo Historical Society Inc.
Medal - U.S. NAVY WELCOME SOUVENIR MEDAL, 1908
U.S. Navy Welcome Souvenir Medal: Badge with Australian and United States flags which is inscribed 2*9*08 above and underneath Bendigo Souvenir. Hanging on a rod with white, green and read ribbon with gold bars. The bars are inscribed 'Welcome above and U.S.A Navy below. Box 325numismatics, medals-commemorative, 1908 visit of the american fleet to australia. bendigo welcome. -
Bendigo Historical Society Inc.
Souvenir - Views of Bendigo, 1902
The Victorian Gold Jubilee Exhibition, held at Bendigo from 13 November 1901 to 14 May 1902. The courts were numbered from one, or had titles like “Machinery”, “Agricultural”, “Naval & Military Court” and “Art”. The female visitors to the Exhibition were able to view exhibits deemed suitable for the fairer sex and located within their own “Women’s Court”. There were exhibits such as “Parasols & Umbrellas”, cotton and haberdashery from Manchester and Staffordshire, “Corsets & Embroideries” from Paris. The most valuable exhibits were mining machinery such as Taylor Horsfield’s £850 “Air Compressor & Rock Borer”. “Bohemian Glassware” brought down from Sydney was valued at £600. The profits from this Exhibition were used to fund the sculpture known as the Gold Monument, which still gazes along Pall Mall (from the McCrae Street end). The Exhibition’s Cash Book shows payments, which totalled £1160, were made to then up and coming sculptor C.D.Richardson. Recently a City of Greater Bendigo staff member used both these volumes to write a detailed report about this monument, for Heritage Victoria.Carol Holsworth Collection: Small book Souvenir, 29 pages plus cover; each page. has a photo of the exhibit. Exhibition was held on the site of the present Bendigo Library between Hargreaves St and Lyttleton Terrace. * 8662.1a Victorian Gold Jubilee Exhibition - Front Cover: Printed 'Souvenir', 'Bendigo 1901-1902'; a photo of the Entrance to the exhibition beside the Town Hall. * 8662.1b Victorian Gold Jubilee Exhibition - Inside Front Cover - Page 1 of 29. Portraits of Exhibition President S.H. Cowen esq.; and G.V. Allen esc., General Secretary. Photos by W.H. Robinson publisher. Printed by T. Cambridge, Market Square Bendigo. * 8662.1c Victorian Gold Jubilee Exhibition - Page 1 of 29 The Governor General at the Exhibition. Photo of the crowd, police, trooper and horse drawn vehicles. * 8662.1d Victorian Gold Jubilee Exhibition - Page 2 of 29 Procession Passing the Fountain, Pall Mall. The crowd and horse drawn vehicles. *8662.1e Victorian Gold Jubilee Exhibition - Page 3 of 29 James Martin and Co's Exhibit. James Martin & Co was an Australian engineering company which progressed from making agricultural equipment to making railway locomotives. * 8662.1f Victorian Gold Jubilee Exhibition - Page 4 of 29 Old Pioneers. Elderly gentlemen on foot and carriage - at the Bendigo Railway Station. * 8662.1g Victorian Gold Jubilee Exhibition - Page 5 of 29 Robert Harper and Company's Exhibit. From Trove - The Brisbane Courier 25 Aug 1891: One of the best known firms in the Southern hemisphere is Messrs. Robert Harper and Co , tea importers, coffee, rice, and spice merchants and manufacturers Then productions circle this continent, and every thrifty housewife is familiar with their Empire tens, their Star' brand of goods, then oatmeal, wheatmeal, and other breakfast table luxuries The headquarters of the firm are placed at Port Melbourne, and the manufactory there occupies over an acre of ground, while the mills at Sydney and Adelaide are as great in proportion It is eight cars since the firm opened business in this colony. The step was taken with much confidence, the principals the firm being quite attracted. * 8662.1h Victorian Gold Jubilee Exhibition - Page 6 of 29 The Electric Tram * 8662.1i Victorian Gold Jubilee Exhibition - Page 7 of 29 G. Weymouth Proprietary Ltd. The business of G. Weymouth & Co was founded in 1898 by George Andrew Philip Weymouth, who began operating from a small workshop on City Road, South Melbourne (opposite Princes Bridge). An early advertisement describes the firm's activities at this time as being 'makers of dynamos, (electric) motors, x-ray apparatus and electrical instruments, &c' together with 'repairs to every class of electrical work'. * 8662.1j Victorian Gold Jubilee Exhibition - Page 8 of 29 The Exhibition Fernery * 8662.1k Victorian Gold Jubilee Exhibition - Page 9 of 29 Cohn Bros'. Exhibit. In 1857 at the height of the gold rush, with people pouring into Central Victoria from all over the world, three brothers from Denmark – Moritz, Julius and Jacob Cohn – founded a small cordial factory in the booming town of Bendigo. They went on to build an empire and, through introducing lager, which is served cold, to the country, changed the drinking preferences of Australians. * 8662.1l Victorian Gold Jubilee Exhibition - Page 10 of 29 Ornamental Lake in the Exhibition Grounds * 8662.1m Victorian Gold Jubilee Exhibition - Page 11 of 29 Australian Explosives and Chemical Co.'s Exhibit. The Australian Explosives and Chemical Company began manufacturing explosives in Melbourne's outskirts (the area now known as Deer Park) in 1875. In 1897 the Company was purchased by Nobel, forming Nobel (Australasia) Ltd. * 8662.1n Victorian Gold Jubilee Exhibition - Page 12 of 29 Tasmanian Court * 8662.1o Victorian Gold Jubilee Exhibition - Page 13 of 29 N. Guthridge's Limited Exhibit. Guthridge sold a variety of mining supplies and equipment; also 'Rackarock' which was used to fill the mining drill holes before blasting. * 8662.1p Victorian Gold Jubilee Exhibition - Page 14 of 29 Navel and Military Court (LARGE File) * 8662.1q Victorian Gold Jubilee Exhibition - Page 15 of 29 Women's Court * 8662.1r Victorian Gold Jubilee Exhibition - Page 16 of 29 T. J. Connelly and Co's Exhibit. T.J. Connelly an American immigrant came to the Bendigo goldfields where he later established Connelly’s Tin Shop on the corner of High and Forest Streets 1853. Connelly was named after Thomas Jefferson the famous statesman who wrote much of the American Declaration of Independence in 1776 and became the third United States President. Connelly, along with other prominent citizens of the time established Bendigo’s first Fire Brigade, Mechanics Institute. * 8662.1s Victorian Gold Jubilee Exhibition - Page 17 of 29 The Potter's Wheel * 8662.1t Victorian Gold Jubilee Exhibition - Page 18 of 29 G. D. Guthrie and Co.'s Exhibit. In 1863 the Bendigo Pottery was set up by Guthrie. * 8662.1u Victorian Gold Jubilee Exhibition - Page 19 of 29 The Ladies' Committee * 8662.1v Victorian Gold Jubilee Exhibition - Page 20 of 29 J. Kitchen and Sons Exhibit. In Port Melbourne since the 1850s they made such products as Velvet Soap and Electrine Candles from the tallow and other animal fats from the nearby slaughter yards. In recent decades the company has become Kitchen & Lever then Unilever and most recently Unichema. * 8662.1w Victorian Gold Jubilee Exhibition - Page 21 1of 29 The Executive Committee * 8662.1x Victorian Gold Jubilee Exhibition - Page 22 of 29 Taylor Horsfield Exhibit. The most valuable exhibits were mining machinery such as Taylor Horsfield’s £850 “Air Compressor & Rock Borer” * 8662.1y Victorian Gold Jubilee Exhibition - Page 23 of 29 A Peep at the Education Department 8662.1z Victorian Gold Jubilee Exhibition - Page 24 of 29 John Danks and Co's Exhibit. John Danks & Son was a major manufacturing company in Melbourne, Victoria and Sydney, New South Wales. * 8662.1aa Victorian Gold Jubilee Exhibition - Page 25 of 29 Glance at the Agricultural Department's Court * 8662.1bb Victorian Gold Jubilee Exhibition - Page 26 of 29 T. York's Exhibit. Thomas York was an instrument repairer and brass instrument maker that resided in Melbourne in the late 19th to the early 20th century. While old newspaper advertisements suggested he repaired all instruments, it appears the focus of his business were military and brass band instruments. (BrassandWoodWind.com) * 8662.1cc Victorian Gold Jubilee Exhibition - Page 27 of 29 T. McPherson and Son's Exhibit. Possibly monumental masons. * 8662.1dd Victorian Gold Jubilee Exhibition - Page 28 of 29 T. Lewis and Whitty's Exhibit - Inside Back Cover. Lewis & Whitty were prominent boot blacking manufacturers as well as a number of other chemical products such as “Odourbane" disinfectant. * 8662.1ee Victorian Gold Jubilee Exhibition - Page 29 of 29 Singer Manufacturing Coy's Exhibithistory, bendigo, victorian gold jubilee exhibition bendigo, carol holsworth collection -
Bendigo Historical Society Inc.
Document - INVITATION TO CR AND MRS J.H CURNOW: AMERICAN NAVAL VISIT RECEPTION, 1925, 31/07/1925
Invitation by the Government of Victoria to Cr & Mrs J H Curnow to a Reception in the Exhibition Building on Friday, 31st July 1925 for the American Naval Visit. Cream coloured Invitation mounted on card. It has scrolls and lamps at each side with ribbon. Behind each lamp are flags, one American and the other with a star on it. Centre top is an emblem with the Southern Cross with a kangaroo above it and a lady on each side. The printing is sepia colour.document, invitations, official celebrations, invitation, american naval visit, cr & mrs j h curnow, united states fleet -
National Vietnam Veterans Museum (NVVM)
Film - Film, Video, Vietnam: River Rats (Copy 3)
... -- Riverine operations American United States. Navy. Mobile Riverine ...vietnam war, 1961-1975 -- riverine operations, american, united states. navy. mobile riverine force -
National Vietnam Veterans Museum (NVVM)
Film - Film, Video, MIA: we can keep you forever
... - Participation American MIA - United States The untold story of Vietnam's ...The untold story of Vietnam's missing in actionvietnam war, 1961-1975 - participation, american, mia - united states -
Royal Australian and New Zealand College of Obstetricians & Gynaecologists (RANZCOG)
Rubin's tubal insufflator apparatus associated with St Vincent's Hospital, c1919
"Potential blockage in the Fallopian tubes was assessed using this apparatus. It was developed by American gynaecologist Isidor Clinton Rubin (1883-1958). It blows carbon dioxide, via a cannula, into the uterus. The ease with which gas escaped through the Fallopian tubes was reflected by pressure changes on an instrument called a manometer. Blockage of the tubes is often due to previous infection or surgery. It is a common cause of infertility. Rubin’s test formed a standard part of infertility investigations for many years. It was gradually replaced by an X-ray technique involving radio-opaque ‘dye’ injected into the uterus." Source: Science Museum Group. Rubin’s apparatus for uterotubal insufflation, New York, United States, 1928. A639503Science Museum Group Collection Online. Accessed 12 June 2024. https://collection.sciencemuseumgroup.org.uk/objects/co96774/rubins-apparatus-for-uterotubal-insufflation-new-york-united-states-1928-tubal-insufflator. There is no manometer to monitor gas pressure on this model so it is either incomplete or a manometer was not available in this possibly early model. This device may be dated c1919, 1920s, or 1930s. 1919 was the year Isidor Clinton Rubin (1883-1958) introduced this apparatus. Rubin's tubal insufflator apparatus. Consists of a large cylindrical glass canister, with three glass nozzles at top with long rubber tubing attached to each. The device is inside a portable plywood box with two door. One surgical steel introducer, and one glass introducer, are also attached to the device. -
Australian Gliding Museum
Machine - Glider – Sailplane, 1972
The Hall Cherokee II glider is an American design for amateur construction from plans. The designer was Stan Hall (1915-2009), a professional engineer, who gained extensive experience in the United States aviation industry during World War 2 including the programs for military gliders. He continued to work as an engineer for aircraft manufacturers and as a consultant to the industry after the war. He was active in gliding and, in particular, the home built sailplane movement. The Cherokee II was one of about 10 glider designs that he produced: it came out in 1956. It is understood that over 100 Cherokee gliders have been built. In Australia the number is possibly 10 or 11. The Hall Cherokee VH-GVO was built by R.D Meares of Caringbah, New South Wales. The glider was registered as VH-GVO on 11 October 1973 and given serial number “GFA-HB-82” by the Gliding Federation of Australia. The Logbook for VH-GVO appears to be a complete record of the flying history; in aggregate 210 hours 40 minutes in the air from 331 flights. The first test hop occurred on 29 July 1972 at Camden, New South Wales. VH-GVO was last flown on 22 July 1986. Many of the flights recorded are of one or two hours duration. The glider was last inspected and certified as airworthy and in a reasonable condition at the Hunter Valley Gliding Club in July 1986. Since that time, until transferred to the Australian Gliding Museum, the glider was in storage. Structural restoration work has been completed on the fuselage and one wing. However, inspection of the other wing revealed extensive damage to the ribs and spars and consequently a decision was taken to make it a static exhibit. The exhibit is an example of home built construction of a type that has proved popular amongst amateur glider builders.The Hall Cherokee (formerly registered as VH-GVO) is a single seat wooden home built glider. The glider is constructed from wood, plywood, fabric and metal fittings, all commercial grade except for main wing fittings, pulleys, cables and bolts. The fuselage is simple with four main longerons and bulkheads with diagonal bracing. The wing has two identical solid spars which form a geodetic structure, hence the leading edge is non-structural. Registration VH-GVO – serial number GFA-HB-82 australian gliding, glider, sailplane, hall, cherokee, meares, hunter valley gliding club -
Australian Gliding Museum
Machine - Glider - Sailplane
The Schreder HP 14V is an all metal single seat sailplane designed by Richard Schreder in America. The design is an evolution of Schreder’s metal sailplane designs that date from the late 1950s. Schreder won the United States National Soaring Championship in 1966 in the prototype HP 14. He marketed the glider in kit form in the 1960s and 1970s and allowed Slingsby in the UK to further develop the design for production. Schreder HP14 V, registered as VH-GGB, was built in South Australia by Harry Bache of the Waikerie Gliding Club in the 1970s. Martin Simons, an authority on vintage sailplanes (including Slingsby types), refers to this airframe as “built entirely from scratch”. After Bache, this Schreder HP14V passed on to E.G. Moore and N.L. Lovell at Ararat in Western Victoria, then Graeme Rickert of the Canberra Gliding Club and finally, to Greg O’Sullivan of the Geelong Gliding Club. The glider was first flown on 20 December 1975. It appears to have been flown regularly over its life to 2015 and the cumulative use being 1386 hours flown from 702 launches. The log book does not disclose details of flights except as aggregates of flights and times. Details of notable flights by Bache and Moore et al are not available. However, reports from Rickert and O’Sullivan indicate that a good number of cross-country flights of 300km or longer were achieved in this aircraft. A well-engineered metal sailplane from the 1970s with good soaring performance which was designed for amateur construction. All metal single seat glider sailplane with a distinctive V-tail, finished in a white and blue colour schemeRegistration letters 'GGB' on sides of fuselageaustralian gliding, glider, sailplane, schreder, slingsby, bache, waikerie gliding club, moore, lovell, rickert, o’sullivan, canberra gliding club, geelong gliding club. -
National Vietnam Veterans Museum (NVVM)
Equipment - First aid kit, US Army
Created as American motor vehicle first aid kit in World War 2 but used in Vietnam. Green metal first aid box with hinge, two metal clasps and metal carry handle. Inside lid has label "24 Unit Kit" and general first aid instructions.Kit contains 11 cardboard boxes containing: 3x 4 inch bandage compress, 2 inch bandage compress, eye dressings, 3 eye dressing sets, 3x burn injury set each with 2 orange tubes of ointment and small wooden spatula , 2 large first aid dressing, I card with 5 safety pins, one tourniquet with instruction label attached, jar of Vaseline, 2 x pieces of cotton fabric ( possibly cut from a singlet)'First aid for emergency use only"/ U.S. Army Medical departmentfirst aid, medical, united states equipment, kit, us army, bandages, tourniquet -
National Vietnam Veterans Museum (NVVM)
Film - Film, Video, Vietnam: River Rats (Copy 1)
... -- Riverine operations American United States. Navy. Mobile Riverine ...vietnam war, 1961-1975 -- riverine operations, american, united states. navy. mobile riverine force -
National Vietnam Veterans Museum (NVVM)
Film - Film, Video, Vietnam: River Rats (Copy 2)
... -- Riverine operations American United States. Navy. Mobile Riverine ...vietnam war, 1961-1975 -- riverine operations, american, united states. navy. mobile riverine force -
Monbulk RSL Sub Branch
Book, David Horowitz, From Yalta to Vietnam: American foreign policy in the cold war, 1967
This book analyses the question: is America to blame for the cold war?Bibliography, Imdex, notes, ill (maps), p.426.This book analyses the question: is America to blame for the cold war?united states - foreign relations, united states - history - cold war -
Monbulk RSL Sub Branch
Book, Chris Ellis et al, American half tracks of world war two, 1978
A detailed history of the American designed half-tracks which served the Allied nations in World War 2 and for many years after.ill (b/w), plans, p.104.non-fictionA detailed history of the American designed half-tracks which served the Allied nations in World War 2 and for many years after.half track vehicles - military, united states army - history -
Monbulk RSL Sub Branch
Book, Alfred A. Knopf, The great war for civilisation : the conquest of the Middle East, 2005
Reaching back into the long history of invasion, occupation and colonization in the region, Robert Fisk sets forth information in a way that makes clear how a history of injustice "has condemned the Middle East to war." He lays open the role of the West in the seemingly endless strife and warfare in the region, traces the growth of the West's involvement and influence there over the past one hundred years, and outlines the West's record of support for some of the most ruthless leaders in the Middle East. He chronicles the ever-more-powerful military presence of the United States and tracks the consequent, increasingly virulent anti-Western - and particularly anti-American - sentiment among the region's Muslim populationsIndex, bibliography, notes, ill, maps, p.1107.non-fictionReaching back into the long history of invasion, occupation and colonization in the region, Robert Fisk sets forth information in a way that makes clear how a history of injustice "has condemned the Middle East to war." He lays open the role of the West in the seemingly endless strife and warfare in the region, traces the growth of the West's involvement and influence there over the past one hundred years, and outlines the West's record of support for some of the most ruthless leaders in the Middle East. He chronicles the ever-more-powerful military presence of the United States and tracks the consequent, increasingly virulent anti-Western - and particularly anti-American - sentiment among the region's Muslim populationsmiddle east - history - 20th century, middle east - international involvement - 20th century -
Monbulk RSL Sub Branch
Book, William Collins, Vietnam : an epic tragedy history of a tragic war, 2018
Vietnam became the Western world's most divisive modern conflict, precipitating a battlefield humiliation for France in 1954, then a vastly greater one for the United States in 1975. Max Hastings has spent the past three years interviewing scores of participants on both sides, as well as researching a multitude of American and Vietnamese documents and memoirs, to create an epic narrative of an epic struggle. He portrays the set pieces of Dienbienphu, the Tet offensive, the air blitz of North Vietnam, and less familiar battles such as the bloodbath at Daido, where a US Marine battalion was almost wiped out, together with extraordinary recollections of Ho Chi Minh's warriors. Here are the vivid realities of strife amid jungle and paddies that killed 2 million people. Many writers treat the war as a US tragedy, yet Hastings sees it as overwhelmingly that of the Vietnamese people, of whom forty died for every American. While all the world has seen the image of a screaming, naked girl seared by napalm, it forgets countless eviscerations, beheadings and murders carried out by the communists. The people of both former Vietnams paid a bitter price for the Northerners' victory in privation and oppression. Here is testimony from Vietcong guerrillas, Southern paratroopers, Saigon bargirls and Hanoi students alongside that of infantrymen from South Dakota, Marines from North Carolina, Huey pilots from Arkansas.Index, bibliography, notes, ill, maps, p.722.non-fictionVietnam became the Western world's most divisive modern conflict, precipitating a battlefield humiliation for France in 1954, then a vastly greater one for the United States in 1975. Max Hastings has spent the past three years interviewing scores of participants on both sides, as well as researching a multitude of American and Vietnamese documents and memoirs, to create an epic narrative of an epic struggle. He portrays the set pieces of Dienbienphu, the Tet offensive, the air blitz of North Vietnam, and less familiar battles such as the bloodbath at Daido, where a US Marine battalion was almost wiped out, together with extraordinary recollections of Ho Chi Minh's warriors. Here are the vivid realities of strife amid jungle and paddies that killed 2 million people. Many writers treat the war as a US tragedy, yet Hastings sees it as overwhelmingly that of the Vietnamese people, of whom forty died for every American. While all the world has seen the image of a screaming, naked girl seared by napalm, it forgets countless eviscerations, beheadings and murders carried out by the communists. The people of both former Vietnams paid a bitter price for the Northerners' victory in privation and oppression. Here is testimony from Vietcong guerrillas, Southern paratroopers, Saigon bargirls and Hanoi students alongside that of infantrymen from South Dakota, Marines from North Carolina, Huey pilots from Arkansas.vietnam war 1961-1975 – history, vietnam war 1961-1975 – personal recollections