Annual Report by C. Bogue Luffmann, in the Department of Agriculture Annual Report 1900 pp 262-311. 2 copies This is a photocopy of the original report. The report is headed "Department of Agriculture, Victoria." At this time the Burnley School of Agriculture was under the jurisdiction of the Dept. of Agriculture. The report was prepared by the Principal C. Bogue Luffmann. It is 54 pages in length, contains an annual report and prospectus, an examination paper, eight essays on horticultural subjects, 4 of these by Mr Bogue Luffmann and the remainder by students. Essays contained in the Annual Report are: Profitable Branches of Agriculture for Victoria - C Bogue Luffmann (Principal) Trunks and Branches - C Bogue Luffmann Girdling Cincturing Lancing Bandaging & Hardening of Bark - C Bogue Luffmann Humus - Tessa Smith (2nd year student) An examination paper - I Higgins (2nd year student) The Requisite Qualifications of the Commercial Fruit Grower - M.W. Thompson (2nd year student) Fruit Tree Stocks - M.W. Thompson An Examination Paper - H.R. Ward (1st year student) and M. Thatcher (1st year student) charles bogue luffman, principal, student essays, c b luffmann essays, horticulture essays, 1900 horticulture writing, cincturing, girdling, lancing, bandaging horticulture, humus, fruit growing, horticulture turn of the century, horticulture school report, luffmann

Agate occurs when amygdales (gas pockets) form in the upper levels of basaltic lava flows. If these pockets or bubbles are iniltrated by water bearing silica in solution, the fluid dries and hardens in layers, forming round or egg shaped nodules or geodes within the rocky matrix. Agate is formed of a silica mineral chalcedony similar to quartz. Although relatively common and semi-precious, agate has been prized since at least 1450 BC - an intricately carved agate seal was found in the 2015 excavation of a grave belonging to a Mycenaeum priest or warrior near Pylos in Greece. Agate is also used in jewellery and other decorative or ritual purposes due to its often striking appearance. Quartz is found all over Australia, including Beechworth in Victoria. It is formed in deep-seated igneous rocks and crystallized through hot aqueous solutions. It can have two forms; Microcrystalline quartz or Crystalline quartz. Microcrystalline quartz is a fine grain quartz where crystalline quartz is often a large crystal. The colour of quartz can vary. These specimens were collected in Victoria in the vicinity of the Burke Museum. Victoria and other regions of Australia were surveyed for sites of potential mineral wealth throughout the 19th Century. The identification of sites containing valuable commodities such as gold, iron ore and gemstones in a locality had the potential to shape the development and history of communities and industries in the area. The discovery of gold in Victoria, for instance, had a significant influence on the development of the area now known as 'the goldfields', including Beechworth; the city of Melbourne and Victoria as a whole.The specimens are significant as examples of surveying activity undertaken to assess and direct the development of the mineral resource industries in Victoria and Australia, as well as the movement to expand human knowledge of earth sciences such as mineralogy and geology in the nineteenth century.Geological specimens of Agate and Quartz respectively; the fist-sized piece of Agate has peach/coral colouring with grey concentric patterning and the smaller piece of quartz is a uniform yellow/orange shade. Existing label: Local pebbles / (agate and / quartz / (yellowish) / egg-shaped). / BB geological specimen, geology, geology collection, burke museum, beechworth, agate, quartz, north-east victoria, indigo shire, geological surveys

Selley's is an Australian company which produces household 'do it yourself' and cleaning products. Martin Selley, who fled Germany in 1939, prior to the start of WWII, established the Selleys Chemical Company - selling wood putty.Selley's is an Australian company which produces household 'do it yourself' and cleaning products that were used by residents of City of Moorabbin in 20thC3 oz Glass bottle with screw on metal lid, painted blue - with a blue and white labelFRONT: Selley's Waterproof glue - (Clear) Manufactured by Selley's Chemical Manufacturing Co. Pty Ltd - SYDNEY - MELBOURNE 3 ozs. Net. BACK: Instructions for use. Selley's Waterproof Glue is a unique material which can be used for almost any type of joint. When used for wood to wood it gives excellent results, comparing favourably with all other types of wood glues, but in addition has the advantage that it is applied cold, and further, when set, is completely water-proof. It does not require any catalyst or hardening agent to set, but dries by evaporation of the solvent, leaving a tough, hard film. The glue contains thinners. Do not use near a naked flame, but after it has dried it is no more inflammable than dry timber. If glue too stiff, add acetone. glue, selley's, waterproof glue, bottle

.1 SEPIA PHOTOGRAPH OF A GROUP OF CHILDREN, GRADES 3 AND 4, AT CLUNES STATE SCHOOL NO. 1552 IN 1924 .2 LIST OF CHILDREN IN PHOTOGRAPH.2 Clunes State School Grace III & IV Photo - 1924; Back Row; Bob Brock, Russell Hancock, Harry Rogers, Charlie Cook, George Morland, Don Girvan, Harry Lucy, Steve Purcell. Second Row; Muriel Williams, Carrie Spark, Mavis Jenkin, May Webb, Janey Williams, Pearl Stevenson, Alice Steart. Third Row; Jessica Carter, Jean Rodda, Ann Adam, Amy Harden, Beryl Coutts, Brenda Fetridge, Ethel Woods, Fourth Row kneeling; Jim Rowe, George Toole, Bill Jones, George Roadly, Billy Nelson, Doug Roberts, Billy Richards Front Row on Ground; Charlie Morgan, Gordon Smith, Ken Robinson, Horace Annear (names read from left to right)local history, photography, photographs, clunes state school 1924

This set of photos is from a leather bound album bearing the inscription "HUME RESERVOIR AUSTRALIA" plus 'The Rt. Hon. L. C. M. S. Amery, P. C., M .P.' all inscribed in gold. It was presented to The Rt. Hon. L. C. M. S. Amery, P. C., M. P, Secretary of State for Dominion Affairs on the occasion of his visit to the Hume Reservoir on 2nd November 1927. This album is of local and national significance as it documents the planning and development of the Hume Reservoir up to 1927. It was the largest water reservoir in the British Empire. The album records the pioneering engineering work that went into its construction.2. Detail Plan and Section. Starting from the New South Wales and there will be an earthen embankment 430 feet 6 inches long which is retained by the North Wing Wall. Then come the sluice section 284 feet 3 inches long, the spillway 720 feet long and the South Wing Wall, making a total length of 1,042 feet 6 inches of concrete wall. Beyond the South Wing Wall is earth embankment again to a length of 3,827 feet. The Full Supply Level is R.L.626.00 and allowance has been made for a surcharge of 9 feet. A road will run along the top of the dam at R.L.642.00. The sluice section contains seven offlets, the three nearest the north wing wall being 13 feet in diameter for hydro-electric purposes and the other four 9 feet in diameter for regulation purposes only. There are to be stony sluice gates on the upstream ends of the outlets and needle valves on the downstream ends. The shock of the discharged water will be taken by a stilling pool. Trash racks will protect the intake ends of the outlets. Next comes the spillway section, which is curved on the downstream face, and carried up to within 15 feet of the full supply level. Above that will be a series of piers between which will be the flood gates and on top of which the roadway will be carried. The gates will be 20 feet wide and 15 feet high and will be 29 in number. They will slide down the face of the wall when opened for the escape of the water. The investigation of the control of this cascade of water was made by means of a model and as a result the form of “bucket” or energy dissipater shown on the section of the spillway was decided upon. The earth embankment in Victoria is being constructed by the State Rivers and Water Supply Commission of Victoria who are the Constructing Authority for that State under the River Murray Waters Agreement. The core of the embankment is of concrete 6 feet wide at the base tapering to 2 feet at the top end and is reinforced with steel rods from the level of the decomposed rock upwards. On the downstream side, at about natural surface level, is a tunnel for drainage and inspection purposes. Above the tunnel is a vertical layer of large stones to drain any seepage to the tunnel. Against the core wall is packed selected material of as impervious a character as can be got locally and beyond that the bank is carefully built up in horizontal layers by means of horses and wheel scoops. The upstream slope is 3-to-1 hardening to 2½-to-1 at the top and the downstream slope is 2½-to-1 hardening to 2.07-to-1 at the top. The thrust of the upstream toe is taken by a mass of granite blocks, and this face is protected by concrete laid in situ. The width of the bank at base is 650 feet and at top 32 feet.hume reservoir australia, river murray waters scheme, hume weir diagrams, hume plan details

This shipwreck artefact is a section of wood from the vessel “Success, a former immigrant ship, and later a convict hulk at Melbourne. The sailing ship “Success” was a teakwood vessel built in Natmoo (Natmaw), Tenasserim, Burma (now Myanmar) in 1840 for Cockerell & Co., Calcutta. Over its lifetime of 106 years, it was used to trade in the Indian subcontinent, to transport free emigrants to Australia, as a prison hulk in the Port of Melbourne for both hardened criminals, and later for women and boys, as a storage vessel for ammunition, a reformatory, and as a floating museum sent around the world to tell the tale of the convict era. During the time “Success” was used as a museum, pamphlets were distributed to paying customers advertising erroneously, that the “Success” was the oldest ship in the world. The “Success” sank and was re-floated twice: the first in Sydney in 1885, the second in the USA in 1918, before it was finally burned and sank July 4, 1946 in Lake Erie, near Sandusky, Ohio in 1946. Although the “Success” was home to prisoners while berthed in the Port of Melbourne, it was not used as convict transport. There has been speculation that Ned Kelly’s infamous armour was displayed on the “Success”, but this cannot be verified. Another link to Ned Kelly is Henry Johnson, an Irish prisoner on the Success, who was implicated in the murder of the ship’s warder, and later Johnson was supposedly a bushranger with Ned Kelly. It is also rumoured that Ned Kelly’s father John was a passenger on the Success, but this is also unverified. There are over 16 other ships named “Success”, although one in particular causes some confusion when researching “Success” in Australia. This other ship – the “HMS Success” was a 28 gun frigate built in1823, which was broken up in 1849. It also sailed to Australia. Statement of Significance: This piece of wood from the “Success” is connected to the ship Success, built in Burma in 1840. The “Success” is connected to the history of Australia because she was used as a merchant ship to transport immigrants to Australia, as a prison ship in Melbourne, a storage vessel, and as a floating “convict” museum, which travelled the world. Section of wood from ship “Success”. Wood appears to have been partially burnt, saw marks faintly visible on wood, remnant of a label with handwriting in black inklabel marked in script handwriting “Convict ship / “Success””flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, sailing vessel success, wood sample of sailing ship success, cockerell & co. calcutta

This teal coloured bottle (blue-green, non-olive) has been handmade from about the 1840s-1870s. The bottle, possibly used to store soda or mineral water, was found in the coastal waters of Victoria about 100 years from when it was made. It is part of the John Chance Collection. The teal, or blue-green, colour of this bottle’s glass is reasonably rare. The colour is probably the result of a combination of cobalt (blue), iron (yellow-orange) and chromium (green) that may have been in the raw silica, or perhaps added to the glass sand before making the glass. Glassblowers made bottles like this one by blowing air through a long pipe into the molten glass blob at the end of the pipe. The glass was blown out to fit into the shape of the cylindrical dip mould. Once it hardened, the glass was removed from the mould and the glassblower would continue using the pipe to create the neck while carefully using a tool to hold the base. A ponty tool was used to complete the shape of the base. The bottle would be cracked off the end of the glassblower’s pipe and a blob of molten glass would be wrapped around the top of the neck and shaped to finish the lip of the bottle, sometimes using a tool to do this. The seal was usually a cork, often held in place with wax or wire with tape over it to seal the aerated drink inside. The gutter between the upper and lower lip was used to anchor the seal. This style of handmade bottles would often have horizontal bubbles in the applied finish, caused by twisting the glass, and vertical bubbles and diagonal lines in the neck and body from it being blown, and a mark in the base where the ponty tool had been attached. Although the bottle is not linked to a particular shipwreck, it is recognised as being historically significant as an example of handmade, mid-19th century bottles imported for use in Colonial Victoria in the mid-to-late 1800s. The bottle is significant for its rarity, as its teal, blue-green colour is unusual. It is a valuable addition to our collection of 1800s handmade bottles. The bottle is also significant as it was recovered by John Chance, a diver in Victoria’s coastal waters in the late 1960s to early 1970s. Items that come from several wrecks have since been donated to the Flagstaff Hill Maritime Village’s museum collection by his family, illustrating this item’s level of historical value. Bottle; unusual dark teal (blue-green, non-olive) opaque glass, medium size, cork-top style. Handmade with applied double-collar lip with straight side upper and a ring lower. The edge of the mouth is uneven. Neck is slightly bulbous. Body has shoulder seam, then tapers inwards to base, shallow base. Heel is uneven width. Base is shallow with glass of different density. Bubbles in the body and an elongated bubble at base of neck. Sediment inside bottle. Chip in lip. Scratched surface.flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, shipwreck artefact, john chance, glass bottle, antique bottle, handmade, mouth blown, blown bottle, 19th century bottle, collectable, bottle, green glass, blue-green glass, teal glass, non-olive green glass, dip mould, soda bottle

This wooden spoke handle is from the wheel of the sailing ship “Success”, a former immigrant ship and later a convict hulk at Melbourne. The sailing ship “Success” was a teakwood vessel built in Natmoo (Natmaw), Tenasserim, Burma (now Myanmar) in 1840 for Cockerell & Co., Calcutta. Over its lifetime of 106 years, it was used to trade in the Indian subcontinent, to transport free emigrants to Australia, as a prison hulk in the Port of Melbourne for both hardened criminals, and later for women and boys, as a storage vessel for ammunition, a reformatory, and as a floating museum sent around the world to tell the tale of the convict era. During the time “Success” was used as a museum, pamphlets were distributed to paying customers advertising erroneously, that the “Success” was the oldest ship in the world. The “Success” sank and was re-floated twice: the first in Sydney in 1885, the second in the USA in 1918, before it was finally burned and sank on July 4, 1946 in Lake Erie, near Sandusky, Ohio, in 1946. Although the “Success” was home to prisoners while berthed in the Port of Melbourne, it was not used as convict transport. There has been speculation that Ned Kelly’s infamous armour was displayed on the “Success”, but this cannot be verified. Another link to Ned Kelly is Henry Johnson, an Irish prisoner on the vessel Success, who was implicated in the murder of the ship’s warder. and later, Johnson was supposedly a bushranger with Ned Kelly. It is also rumoured that Ned Kelly’s father John was a passenger on the Success, but this is also unverified. There are over 16 other ships named “Success”, although one in particular causes some confusion when researching “Success” in Australia. This other ship – the “HMS Success” - was a 28 gun frigate built in1823, which was broken up in 1849. It also sailed to Australia.Thiswooden ship's wheel handle was once part of the ship’s wheel of the sailing ship “Success” , which was, built in Burma in 1840. The “Success” is connected to the history of Australia because she was used as a merchant ship to transport immigrants to Australia, and was also used as a prison ship in Melbourne, a storage vessel, and as a floating “convict” museum, which travelled the world. Ship's wheel handle. Hndle from the wheel of sailing ship, the “Success”. The shaped handle is domed at one end, becoming narrower towards the other end, then flattened out into a beveled circle. The handle has an inscription written in pencil."Success"flagstaff hill maritime museum, maritime museum, sailing ship success, ship's wheel spoke, ship's steering wheel, prison ship, prison hulks, convict ship, spoke handle, ship's wheel, navigation equipment, steering wheel

This strong, heavy bank safe was made by W. Marr in London. It was formerly owned by the ANZ Bank in Portland, Victoria. Portland’s ANZ Bank was originally a branch of the Bank of Australasia, which first came to Australia in 1835, opening in Sydney. Portland’s Bank of Australasia began in a bluestone building built on the north corner of Julia and Bentinck Streets by stonemason William Robb in 1855, around the time of Australia’s Gold Rush. Eventually, in 1951, the Bank of Australasia merged with the Union Bank to become the Australia & New Zealand Bank, known as the ANZ. Portland’s branch of the Bank of Australasia then moved into the old Union Bank building at 44 Percy Streets; both bank buildings were built around the same. The maker of this safe, W. (William) Marr, obtained a patent in 1834 for what is believed to be the first fire-retarding patent, building this into the lining of strong boxes. Others made further design improvements such as hardening the metal plates used to make the boxes. In about 1840 Thomas Milner, a Sheffield tinsmith, made the earliest safes that could safely protect their contents from a surrounding fire. This was achieved by including tubes of a substance between the inner and outer walls of the safe that would react to the heat and the contents would put the fire out. In 1851 an Exhibition at London’s Crystal Palace included fire-proof safes from different vendors. William Marr was listed under Fireproof Box Makers in the 1842 London Trades Directory, at 33 Broad Street, and 52 Cheapside. William Marr & Son were appointed to supply Her Majesty’s National Debt Office and other departments in 1860, with the address 9 Walbrook, Vulcan Safe Works, Skin Yard, Bankside, Southwark, London. 1n 1870 the address for William Marr listed under Safe Makers and Agents in the London Trades Directory was 67 Cannon Street. The manufacturer, W Marr, is significant as an inventor of a way to make a strong box fireproof, then patented his secure safe. This invention indicates that security of money was of great importance in the mid-1800s as it continues to be today. The secure safe would have given much comfort to those with investments and savings, as well as to the bank itself, the custodian of other people's money. This safe was made in London and exported to colonial Australia, giving significance to the safe as an item that was high in the list of the needs of the early Australians and their businesses. The safe has local historical significance as it was used by the original Bank of Australasia in Portland, which was built in 1855 and went on to become the ANZ Bank, still in operation today. The bank was an integral part of the establishment and growth of commerce in Colonial Victoria.Safe; heavy metal bank safe, painted green. Double doors each have top and bottom external hinges, and two front panels; the top panels are arched. The thick doors have five sliding locks. Inside is a fixed metal compartment with a locked sliding metal drawer, and several fitted shelves plus some temporary removable shelving. Both doors have a decorative brass knob near the centre opening. Left door has an oval artificial keyhole and a space where another fitting has been attached. The right door has a second brass knob and an oval keyhole. The top panels of the left door has an oval plaque with an inscription; the right door has evidence that there was an oval attachment. Made by W. Marr, London.Text embossed on plaque: "W. MARR / PATENTEE & MANUFACTURER / 52 / /CHEAPSIDE / LONDON" flagstaff hill, warrnambool, shipwreck coast, flagstaff hill maritime museum, flagstaff hill maritime village, maritime museum, great ocean road, shipwreck artefact, safe, bank safe, vault, security, finances, anz bank, portland bank, w marr, william w marr, financial institution, savings, gold exchange, loans, investments, safety, safe maker, lock maker, iron box, strong-room

Thomas Walker & Son was internationally renowned in the manufacturing of ships logs. Founding father Thomas Walker (1805–1871), an engineer in Birmingham, patented a mechanical log in 1878 which was a recording instrument that attached to a rail at the stern of a vessel connected by a long cord with a rotor which was towed behind the ship. The instrument dial recorded the distance travelled. Thomas Walker first went into business to manufacture stoves at 58 Oxford Street Birmingham. Walker’s self-feeding stove was widely lauded at the Paris Exhibition of 1855, winning a prize medal and kick starting the first of many notable innovations for the Walker family's manufacturing business. However, it wasn’t until working on an earlier ships log model invented by his Uncle that Thomas Walker became interested in the further development of this device, used to ascertain a ship’s speed. Walker continued to improve on the common log for the company of Massey & Sons and these improvements were deemed revolutionary. This log became a firm favourite of the West India Association (British-based organisation promoting ties and trade with the British Caribbean) and the most common log in use for two generations. It took till 1861 for Thomas Walker and his son, Thomas Ferdinand Walker (1831-1921) to patent the first Walker log of many. Together, with the introduction of the A1 Harpoon Log two years later, they established the Walker Log Business as a force to be reckoned with. By the time of his passing in 1871, Thomas Walker Snr had not only founded a family business with considerable staying power but also instilled a tradition of public service. Having sat as a representative on the Birmingham Town Council for 15 years and played an active role in public works, he was soon given the nickname of ‘Blue Brick Walker’. Much like his father, Thomas Ferdinand Walker changed the face of the maritime industry. His patent of 1897, the ‘Cherub’ log, was a notable departure from the past providing a far more accurate reading and replacing the majority of logs of the age. They were the first to produce an electric log and the Walker factory was one of the first to introduce the 48 hour work week for employees. This ship log was invented and made by a significant marine instrument maker and innovator of machinery. It demonstrates the huge leap taken to improve navigational accuracy at sea with an instrument that was in use for decades. Ship Log, three analogue dials calibrated in increments of Miles, the Rocket Log is a nautical instrument for measuring a vessel’s speed and distance traveled. The floating log was drawn behind the ship over a fixed time period in order to measure the distance traveled. The counter could measure enough miles to cover the maximum distance traveled by a ship in one day. The log has two distinct parts; a brass register, made by Walker, showing the distance recorded and the rotator made by Reynolds, that spins in the water driving the counter. both parts are connected by a linked chain. The register has a cylindrical brass body approx 4.5 cm diameter containing registering mechanism with hardened steel bearings. Distance is indicated by the three pointers on enamel plate as follows: graduated every 10 miles from 0-100; every mile from 1-10; every 1/4 mile from 1/4 -1. A brass sling and eye secured to the body enables it to be attached to the taffrail. The original rotator would have had a cylindrical tapered wooden body, approx 4.5 cm in diameter with three metal alloy fins or could be all made from brass. A towing eye is fitted to the tapered end. The two pieces of apparatus are connected by a length of linked chain, length 22.9 cm."Walkers Rocket Ship-Log Birmingham (Patented)" printed on face-plate. "Made by Thomas Walker".flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, ship log, rocket log, mechanical ship log, measuring instrument, marine instrument, nautical instrument, speed recording instrument, ship log register, walker ship log, walkers rocket ship-log, thomas walker, thomas walker & son, thomas ferdinand walker, walker log business, reynolds ship log rotor, taffrail log, taff rail log, west india association

A screwdriver is a tool, manual or powered, for turning (driving or removing) screws. A typical simple screwdriver has a handle and a shaft, and a tip that the user inserts into the screw head to turn it. The shaft is usually made of tough steel to resist bending or twisting. The tip may be hardened to resist wear, treated with a dark tip coating for improved visual contrast between tip and screw—or ridged or treated for additional 'grip'. Handle are typically wood, metal, or plastic and usually hexagonal, square, or oval in cross-section to improve grip and prevent the tool from rolling when set down. The handle and shaft of screwdrivers have changed considerably over time. The "Perfect Pattern Handle’ screwdriver was first manufactured by HD Smith & Company, which operated from 1850 to 1900. Screwdrivers were probably invented in the late 15th century, either in Germany or France when Screws were used to construct screw-cutting lathes, for securing breastplates, backplates, and helmets on medieval jousting armor—and eventually for multiple parts of the emerging firearms, particularly the matchlock. The jaws that hold the pyrites inside medieval guns were secured with screws, and the need to constantly replace the pyrites resulted in considerable refinement of the screwdriver. The screwdriver depended entirely on the screw, and it took several advances to make the screw easy enough to produce to become popular and widespread Canadian P.L. Robertson, though he was not the first person to patent the idea of socket-head screws, was the first to successfully commercialize them, starting in 1908. In Portland, Oregon, Henry F. Phillips patented his own invention, an improved version of a deep socket with a cruciform slot, today known as the Phillips Screw. Phillips offered his screw to the American Screw Company, and after a successful trial on the 1936 Cadillac, it quickly swept through the American auto industry. A main attraction for the screw was that conventional slotted screwdrivers could also be used on them, which was not possible with the Robertson Screw. A large steel screwdriver with worn wooden handlepioneers, early settlers, market gardeners, moorabbin, bentleigh, cheltenham, brighton, tools, craftsman, carpenters, , blacksmiths, builders, farmers, metalwork, woodwork, screws, philllips head screwdrivers, h.d.smith & co usa, p.l. robertson, henry f.phillips , oregon, canada, american screw company,

A coping saw is a type of hand saw used to cut intricate external shapes and interior cutouts in woodworking or carpentry. It is widely used to cut mouldings to create coped rather than miter joints. It is occasionally used to create fretwork though it is not able to match a fretsaw in intricacy of cut, particularly in thin materials. Coping saw blades are always thicker and much coarser cutting than typical fretsaw blades. A coping saw consists of a thin, hardened steel blade, stretched between the ends of a square, c-shaped, springy-iron frame to which a handle is attached. The blade is easily removed from the frame so that the blade can be passed through a drilled hole in the middle of a piece of wood. The frame is then re-attached to the blade and the cut starts from the middle of the piece. Long cuts perpendicular to the edge of the material are possible but the shallow depth of the frame rather limits how far from the edge one may cut. The much deeper frame of the fretsaw is more useful for cutting well away from the edge but conversely cannot manage the thicker materials commonly cut by the coping saws. The coping saw blade is installed with the teeth pointing towards the handle. Unlike a hacksaw, which has the teeth pointed away from the handle, the coping saw cuts on the pull stroke. The coping saw blade is removable by partially unscrewing the handle. The blade is prevented from rotating by means of the short, steady bar provided where the blade is attached. Loosening the handle also allows the blade to be rotated relative to the frame as desired. Carefully aligning the finger steady bars at the top and bottom of the blade ensures that the thin blade is straight and not twisted along its length. Re-tightening the handle tensions the blade and locks it at the desired angle relative to the frame. The short steady bar nearest the handle is held securely between finger and thumb while the handle is tightened to ensure the blade remains at the desired angle. Unlike the fretsaw the coping saw blade has holding pins which lock securely into the angled slots of the rotatable blade holders. Gentle curves are achieved by slowly turning the whole frame by means of the handle while continuing to cut steadily. A coping saw with wooden handle but no bladetools, saws, steel , clamps, metalwork, woodwork, carpentry, early settlers, pioneers, market gardeners, moorabbin, bentleigh, cheltenham, fretsaw, coping saw, bowsaw, blacksmiths,

The Bentwood chair has been called ‘the world’s most popular chair’. The original Bentwood chair, was designed by German-Austrian cabinet maker and Master Joiner, Michael Thonet (b.1796 - d.1871) and introduced to the market in 1859. Thonet started his business in his home town of Boppard as an independent cabinet maker in 1819. In the 1830’s he began trying to make furniture from glued (laminated) and bent wooden slats. Over the next few years his attempts to patent this process failed in Germany, Great Britain, France, and Russia. He then began using lightweight, strong wood and bending it into elegant, comfortable furniture. The Bentwood technology took Thonet years to perfect. In simple terms, the wooden rods or lengths were wet by soaking or steaming, bent into shape and then held in place until they hardened into the moulded curved shape or pattern. The wood usually chosen for the bentwood chairs was maple or beech. Thonet had revolutionised an older process by industrialising the process. The dowels of wood were cut and prepared as components of furniture, treated by the ‘bentwood’ process, then ready immediately for assembling with very little extra workmanship needed. Thonet held 2 patents for this process, the second one ended on 10th July 1869 and was non-renewable. At the Trade Fair at Koblenz of 1841 Prince Klemens Wenzel von Mettemich was very impressed with Thonet’s furniture, especially the chairs. In 1842 Thonet sold his Boppard business and emigrated to Vienna, and began working, along with his sons, on the interior decoration of the Palais Leichtenstein, for the Carl Leistler establishment. In 1849 he began his own business again, the Gebruder Thonet to include his sons (translated “Brothers Thonet”). He produced the “No. 1” Bentwood chair. He received a bronze medal for his Vienna bentwood chairs at the World Fair in London in 1851, and a silver medal in Paris in 1855. In 1856 he opened a new factory in Koritchan (Moravia), where there were extensive woods of beech trees available for his enterprise. In the next years, five more Eastern European production sites were established in Bystritz (1862), Nagy-Ugrócz (1866), Wsetin (1867), Hallenkau(1867) and Nowo-Radomsk(1880). Thonet’s 1859 No. 14 “chair of chairs” (or “Konsumstuhl Nr. 14” – coffee shop chair no. 14) was the most famous of all of Thonet’s Bentwood chairs. In 1867 he received a gold medal at the Paris World Fair. This new style of furniture making became very popular. Up until 1830 50 million of these chairs had been produced. By the 1870’s Thonet owned offices in almost 20 countries, with sales locations across Europe, in Chicago and New York. In 1889 he set Thonet set up a head office in Frankenberg, Hesse. Bentwood models designed in the mid to late 19th century featured hand-caned or laminated wood seats and were usually stamped with the country of origin. The Bentwood elements were the backrest, seat rim and legs. Typically the seat was covered with ‘bucket’ leather. After the Patent ran out in 1869, companies such as Jacob & Josef Kohn began the production of bentwood furniture.The popularity of the Bentwood chair that was introduced by Michael Thonet in the 1850s is due to its versatility and timeless quality. Its style, whether varnished or painted, suits any room in the house. The lightweight chairs are also popular for café and restaurant seating, as well as for public gatherings. They can be easily moved around and grouped in a variety of ways to suit any occasion.Chair, bentwood, pair of two. Backrest has full length inverted U inside frame. Support rail and wire reinforcing between legs. 3692.01 seat has floral pattern pressed into wood 3692.02 seat is plain (replacement seat). Made by Harnison & Co.3692.01 chair's marks; Label ""HARNISON & CO./ NEUSOL / BUDAPEST" and "WIENER NOBEL" and "(symbol) N inside circle, under Crown" flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, domestic furniture, dining furniture, bentwood chair, harnison & co., neusol, budapest, wiener nobel

Demonstrates Wal Jack's records, hand written in a recycled notebook. Note - several sheets have been cut from the book - appear to be done before use by Wal. The crossed out sheets have not been imaged - these have been transferred by Wal to Reg Item 5507 and re-ordered. Image 30 shows a sample of a crossed out page. See related documents for a pdf file of the contents. Scan No. BTM5623iX Page No. Title or Subject Notes 1 Front 2 Inside Cover Addresses for Jack McLean, John Buckland Trooper Larsen Inside front cover. 3 1 Note re NSWT steam tram motor, MMTB PCC import issues, Peter Duckett seeking info and Photo of Julien’s battery tram on test in Melbourne 4 2 MMTB No. 8, 4, photos, Tyrell’s of Sydney photos, Perth 63 dimensions and MMTB plans for Domain Road & St Kilda Rd Jtn. 5 3 Notes re NSWGR P32, VR locos at Wodonga 13/10/1941, SAR V Class V143, SAR locos – W and Wx 6 4 NSW Private locos, Woy Woy quarry and AGL at Mortlake 5 Blank 6 Blank 7 7 First cable trams – links to photos T154, 29, 154 (Adelaide) 8 8 T156, Powelltown, Ray Pearson Negs 9 9 QR B18 ¼ locos, Ray Pearson’s scrap book, PMTT Zeppelin style trams, MMTB T class locations and 178/179 rebuilding. 10 10 Hawthorn horse tramway, VR Black Rock terminus sketch 11 11 NSW Tramways, Ryde, MMTB L class, Geelong tramway notes 12 12 Locomotive “Ballarat” in WA, Brisbane and various contacts. 13 13 Notes re VR News – 1943, H class, derailments, max speeds, Koondrook tramway and Geelong level crossing. Individual typed sheets pasted onto page – loose within book. 14 to 17 14/17 List of MMTB trams to 877 and work trams Some errors noted. 18 18 Newspaper cutting – Tram Record Day revenue (Brisbane 10/1943), Steam Trams at Journey’s end – Sydney – 6/1943 list of equipment being sold by Sydney Ferries, at Parramatta, 6/1943. MMTB Tram crossings in Melbourne, list of Sydney photos sent to Wal. Cuttings and Individual typed sheets pasted onto page. 19 19 Midland locos WA, VR open wagon stencils and a siding at Mt. Evelyn. Individual typed sheets pasted onto page. 20 20 Note re Sydney four wheel tourist trams and Hawthorn Max. Traction cars locations c1945. 21 to 23 21/23 Notes on Geelong Bogie trams and carrying flags for declaration of Newtown and Chilwell as a city – 1/10/1949 (See also Reg Item 5641) 24 to 26 24/26 Notes on Wellington Corporation Tramcars 37 27 Kelburn – Karoi cable line Wellington 28 to 29 28/29 Auckland Tramway Board tramcars notes 30/31 Blank 30 32/33 Notes on Ballarat tramcars – ESCo Crossed out 34/37 Ditto – SEC Crossed out 38 Music for the people notes Crossed out 39 Notes on Ballarat trams with tail lights Crossed out 40/43 Notes on Ballarat bogie trams Crossed out 44/45 Notes on SEC tram controllers, dead man and truck lengths. Crossed out 31 45 List of Ballarat Destination roll – Dec 1949 32, 33 46/47 Notes on Bendigo Bogie Trams – 1940’s 34 48 Bendigo Destination roll on a Birney tram Easter 1950, notes on tram tail lights and fares on the Bendigo system. 49 Blank – though headed “Bendigo Birney Trams” 50 Notes trams used on special days in Ballarat Crossed out 51 Ditto and No. 24 and 23 Crossed out 52 Ditto, 15, 11, 23 and Gold tram Crossed out 53 Notes on 34 caused delays, 5/1950, and use of 23 as gold tram Crossed out 54 Notes on repair to track at Sturt and Drummond 6/1951 Crossed out - see Reg Item 7720. 55 Notes on track work in Ballarat early 1950’s Crossed out 56/57 Notes on 33, 37, pay as you enter signs and 1953 special workings Crossed out 58/60 Notes trams used on special days in Ballarat Crossed out 61/64 Blank 35 65 “Salute to the Cable Tram” – transcription of text from Truck and Bus Transportation (July 1948) 36, 37 66/67 Continued from above and list cable tram routes, opening, closing, length and route colours. 38 68 List of photos in Truck and Bus Transportation, Anniversary Issue July 1948 of cable trams. 69 Blank 39 70 Notes on Brunswick TT, Fitzroy TT colours, Adelaide Service trams and MMTB route lengths. 40 71 Notes on HTT colours, tramcars, PMTT trams and colours and NMETL colours, trams and route destination signs 41 72 Notes on MMTB routes, cable and other Melbourne tram disposals, and sale of cable trams and storage at Brunswick. 42 73 Blank - page was headed Lugarno, Switzerland and Italian border 42 Handwritten sheet – photos to get – R. Field and Peter Duckett. 43, 44 74/75 Listing of trains on all lines leaving Ballarat and days run. 45 77 Listing of negatives sent to K. Rogers in 1944 and list of MMTB Max. Traction bogie trams 117 to 138 and disposal 46 77 Listing of MMTB trams, - appears to be something to do with photos or negs held. 47 78 Listing of Ray’s (Pearson) negs /photos of Brisbane trams and other railway photos. 79 Blank 48 80 Prices of pine timber in 4/1942, list of photos “I want”, notes re VR Train length, Ironbark Gully bridge, 3817 in Harden smash 7/1948 and 1948 Ballarat destination roll. Partly crossed out. Rear Cover. Has a strong association with Wal Jack, his work to collect and record both railway and tramway information. Yields information about tramways in Ballarat, Bendigo, Geelong and other cities tramways and railways.Grey covered book with black binding containing 40 lined sheets (80 pages) with handwritten notes with the front cover partly cut out and the words "Jewellery & Engraving" book written in. Contains some newspaper clippings and pasted typed notes as listed below. The image number of each sheet is given. See individual pdf files. trams, tramways, mmtb, ballarat, bendigo, sydney, brisbane, railways, geelong, new zealand, victorian railways, sec, esco

These images capture for all time Light Horsemen travelling through Geelong on their way to camp at Torquay for the last Group meeting in Australia . information following - details obtained from .........https://torquayhistory.com/light-horse-brigade/ On Australia Day, 1997, Sir John Young unveiled this plaque on Point Danger, Torquay. Torquay history, Light Horse Training Camp, WW2 Plaque at Pt. Danger Note----- (See images to view plaque) The plaque identifies a significant event in Torquay’s history and the sentiments of ‘change’ for the Light Horse Brigade – from horses to machines. In 1940 the four Light Horse Regiments (4th, 8th, 13th and 20th), some 5000 Light Horse and 2000 horses camped and trained at Torquay. Three other regiments, formerly mounted on horses, were also at Torquay ‘mounted’ on privately owned trucks and cars. Division troops included Artillery, Engineers, Signals, Field Ambulance and other branches of the Army necessary to enable a Division to function. It wasn’t just the sheer numbers of men coming to this little town that made the event significant, it was also the fact that the men of the Light Horse were dramatic, almost glamorous figures and it is easy to see their exploits as some splendid adventure. Horses have played a special role in the story of Australia. They were the only means of transport across this huge country, so it was necessary for everyone to have the ability to ride a horse. When war broke out in 1899 between Britain and the Boers of South Africa (“Boer” was Dutch for “farmer”) Australia sent troops to fight. At first Britain was wary of using untried, unprofessional colonial cavalrymen but soon saw that the slouch-hatted Australian “bushmen” were a match for the fast-moving and unconventional mounted commandos of the Boers. The Australians proved themselves to be expert rough-riding horsemen and good shots. Bush life had hardened them to go for long periods with little food and water. They also showed remarkable ability to find their way in a strange country and use its features for cover, in both attack and defence. By 1914, when Australia joined the war against Germany, there were 23 Light Horse regiments of militia volunteers. Many men from these units joined the Light Horse regiments of the Australian Imperial Force (AIF). Men were given remounts (if not using their own horses) – army horses bought by Commonwealth purchasing officers from graziers and breeders. These were called “walers” because they were a New South Wales stockhorse type – strong, great-hearted animals with the strains of the thoroughbred and semi-draught to give them speed, strength and stamina. On 1st November, 1914, Australia’s First Infantry Division and the first four Light Horse regiments sailed for England in a fleet of transport ships. The first of the Light Horse arrived at Gallipoli in May without their horses. Back with their horses after Gallipoli, they were formidable combatants across the Sinai and Palestine. Some British commanders observed that the light horseman moved with a “lazy, slouching gait, like that of a sleepy tiger” but described how the promise of battle “changes that careless gait, into a live athletic swing that takes him over the ground much quicker than other troops”. They had Light Horse, Torquay, training campdeveloped a reputation as formidable infantrymen. The Turks called them “the White Ghurkas” – a reference to their deadly skill with the bayonet. The Arabs called them “The Kings of the Feathers”. The plume had originally been a battle honour of the Queensland Mounted Infantry for their work in the shearer’s strike of 1891. During WW1 it was adopted by almost all the Light Horse Regiments. It was the proud badge of the light horseman. The most famous of their battles was the attack on Beersheba- the charge of the 4th Light Horse Brigade. Mounted infantrymen and their superb walers had carried out one of the most successful cavalry charges in history – against what seemed impossible odds. They surprised the Turks by charging cavalry-style, when they would normally have ridden close to an objective then dismounted to fight. The fall of Beersheba swung the battle tide against the Turks in Palestine; and changed the history of the Middle East. While 19 men from the Surf Coast Shire served with the 4th Light Horse over the course of WW1, only four were involved in the charge of Beersheba- John GAYLARD, Philip QUINN.(Winchelsea); Wallace FINDLAY (Anglesea); Harry TRIGG (Bambra). After the war, Light Horse units played a key role in the Australian Government’s compulsory military training programme. The Citizen Military Forces (C.M.F.) thrived on the glamour of the wartime Light Horse tradition, ignoring the possibility that motor vehicles would soon replace the horses. When training was no longer compulsory, the C.M.F. regiments declined and horses became more of a luxury during the 1930s depression years of poverty and unemployment. Some regiments were motorised. Then, in 1939, Australia joined Britain in another world war. Training was increased for the militia at both home bases and regional training camps. The camp at Torquay in 1940, commanded by Major General Rankin, was at Divisional strength. By the end of the camp some felt that the Division was ready for active service. Gradually, over the next four years, the Australian Light Horse units were mounted on wheels and tracks and the horses were retired. Six men enlisted at the Torquay camp and another 57 men and women enlisted at Torquay for service in WW2. Those who served in the Militia provided valuable Officers and NCOs and men for the armed services during the war. Each infantry division of the 2nd AIF had a Light Horse regiment attached to it. But the day of the Australian mounted soldier hadn’t quite passed. During World War II, Australia’s 6th Cavalry Regiment formed a mounted unit they called “The Kelly Gang” which did valuable scouting work. In New Guinea, a mounted Light Horse Troop did patrol duty and helped carry supplies. Some fully equipped walers were flown into Borneo for reconnaissance in rugged mountain country. But by the end of the war, in 1945, the horse had disappeared from the Australian Army. References: Australian Light Horse Association www.lighthorse.org.au National Australia Archives Australian War Memorial Surf Coast Shire WW1 memorials www.togethertheyserved.com The Light horse- a Cavalry under Canvas Light Horse, Training Camp, Torquay, WW2 Late in 1939 it was decided to set up a Lighthorse training camp in Torquay to train both men and horses for the battles of the Second World War. Horses, men and equipment came on special trains from all over Victoria and NSW, and as you would expect horseman came from areas such as Omeo and Sale, the Wimmera and the Western District. They arrived at the Geelong racecourse for watering in the Barwon River and then were ridden across the ford at the breakwater and began their 11 mile trek to Torquay. Light Horse, Training Camp, Torquay, WW2 Tent city By the end of January 1940 the camp at Torquay accommodated some 5000 men and 2500 horses of the Second Cavalry Division. The rows of horses, tents and huts near Blackgate Road were quite a sight. While the cavalrymen engaged in exercises on the land and on the beaches, many of the troops took over the Torquay School for special training of men and officers. Mr Bob Pettit local farmer and Councillor for the Barrabool Shire, wrote about the Light horse in the Surf Coast Community News in 1985 saying “They used to travel about the district riding four abreast in one long convoy. To my annoyance they went through my property and shut all the gates behind them. I had certain gates open to let stock in to the water holes and it would take me three -quarters of an hour to follow the horsemen up and put all the gates right again” he continued “the men from the Light Horse were here when the fire went through in March 1940. He recalled an incident when early one morning, as some one blew the bugle, a soldier putting a white sheet on the line frightened the horses. They panicked and ran off in all directions. Six went over the cliff near Bird Rock, five were never found, and the rest were gathered up after nearly a fortnight in the bush around Addiscott and Anglesea" Light Horse, Training Camp, Torquay, WW2, Geelong Parade Geelong parade The training camp culminated in a parade through the streets of Geelong on March 12th 1940. The salute was given at the Town Hall and the troops continued on a route to the You Yang’s for a training exercise. Note-----(see media section for photograph) The Camp was abandoned in mid 1940 as it was deemed unsuitable for training during winter and the cost of a permanent camp could not be justified if it could not be used all year. Historic.......Rare,,,Interpretive.Sepia photographs.set of four ....post card size ....Horses &LighthorsemenNo 1, Lighthorsemen Regiment Geelong 1940......No 2 Light Horse at Breakwater Geelong 1938 to 1940....No 3 Light Horse at Breakwater Geelong 1938 to 1940.....No 4 Light Horse crossing Breakwater camped at Geelong Showgrounds. These markings are on reverse of photographs.light horsemengeelong 1940., world war 2

THE DISCOVERY OF STAINLESS STEEL Harry Brearley Since the dawn of man colonies have raced against each other to uncover new technologies, to be the first to stamp their names on a discovery, and although we’ve evolved over millions of years, the urge to be the first remains at the very core of our nature. This sense of passion and pride can lead some of the more unscrupulous humans to claim others discoveries as their own. Of course many breakthroughs are genuinely made in tandem, or are simultaneously occurring, but unless you can categorically prove that you were the pioneer of these incredible findings, then the other party involved will always dispute the fact. And so we come to stainless steel. The first point to note is that ‘inventor’ is a very ambiguous term. Is this the first person to think, to document, to patent, or to produce? The second point is that stainless steel wasn’t truly defined until 1911, so are we to cast aside those chromium-iron alloys that don’t quite meet the minimum requirement of 10.5% chromium? It seems like anyone and everyone has a different claim to being labelled the ‘inventor’ of stainless steel; from Britain, Germany, France, Poland, the U.S.A., and even Sweden. The cogs were set in motion by Englishmen Stoddart and Faraday circa 1820 and Frenchman Pierre Berthier in 1821. These scientists, among others, noted that iron-chromium alloys were more resistant to attack by certain acids, but tests were only carried out on low chromium content alloys. Attempts to produce higher chromium alloys failed primarily because of scientists not understanding the importance of low carbon content. In 1872 another pair of Englishmen, Woods and Clark, filed for patent of an acid and weather resistant iron alloy containing 30-35% chromium and 2% tungsten, effectively the first ever patent on what would now be considered a stainless steel. However, the real development came in 1875 when a Frenchman named Brustlein detailed the importance of low carbon content in successfully making stainless steel. Brustlein pointed out that in order to create an alloy with a high percentage of chromium, the carbon content must remain below around 0.15%. Thus ensued two decades of stagnation for the development of stainless steel, and while many scientists attempted to create a low carbon stainless steel, none succeeded. Hans Goldschmidt It wasn’t until 1895, when Hans Goldschmidt of Germany developed the aluminothermic reduction process for producing carbon-free chromium, that development of stainless steels became a reality. In 1904 French Scientist Leon Guillet undertook extensive research on many iron-chromium alloys. Guillet’s work included studies on the composition of what would now be known as 410, 420, 442, 446 and 440-C. In 1906 Guillet went on to analyse iron-nickel-chrome alloys, which would now be considered the basics of the 300 series. However, while noting the chemical composition of his alloys, Guillet failed to acknowledge the potential corrosion resistance of his materials. Albert Portevin In 1909 Englishman Giesen published an in-depth work regarding chromium-nickel steels, while the French national, Portevin, studied what is now regarded as 430 stainless steel. However, it wasn’t until 1911 that the importance of a minimum chromium content was discovered by Germans P. Monnartz and W. Borchers. Monnartz and Borchers discovered the correlation between chromium content and corrosion resistance, stating that there was a significant boost in corrosion resistance when at least 10.5% chromium was present. The pair also published detailed works on the effects of molybdenum on corrosion resistance. It is at this point we introduce Harry Brearley, born in Sheffield, England in 1871, he was appointed lead researcher at Brown Firth Laboratories in 1908. In 1912 Brearley was given a task by a small arms manufacturer who wished to prolong the life of their gun barrels which were eroding away too quickly. Brearley set out to create an erosion resistant steel, not a corrosion resistant one, and began experimenting with steel alloys containing chromium. During these experiments Brearley made several variations of his alloys, ranging from 6% to 15% chromium with differing levels of carbon. On the 13th August 1913 Brearley created a steel with 12.8% chromium and 0.24% carbon, argued to be the first ever stainless steel. The circumstances in which Brearley discovered stainless steel are covered in myth; some enchanted tales of Brearley recite him tossing his steel into the rubbish, only to notice later that the steel hadn’t rusted to the extent of its counterparts, much like Alexander Fleming’s experience 15 years later. Other more plausible, (but less attractive), accounts claim it was necessary for Brearley to etch his steels with nitric acid and examine them under a microscope in order to analyse their potential resistance to chemical attack. Brearley found that his new steel resisted these chemical attacks and proceeded to test the sample with other agents, including lemon juice and vinegar. Brearley was astounded to find that his alloys were still highly resistant, and immediately recognised the potential for his steel within the cutlery industry. The Half Moon Brearley struggled to win the support of his employers, instead choosing to produce his new steel at local cutler R. F. Mosley. He found difficulty producing knife blades in the new steel that did not rust or stain and turned to his old school friend, Ernest Stuart, Cutlery Manager at Mosley’s Portland Works, for help. Within 3 weeks, Stuart had perfected the hardening process for knives. Brearley had initially decided to name his invention ‘Rustless Steel’, but Stuart, dubbed it ‘Stainless Steel’ after testing the material in a vinegar solution, and the name stuck. And that’s how Harry Brearley discovered stainless steel…. well, not quite… During the 5 year period between 1908 and Brearley’s discovery in 1913 many other scientists and metallurgists have potential claims to Brearley’s title. In 1908 the Germans entered the fray, the Krupp Iron Works in Germany produced a chrome-nickel steel for the hull of the Germania yacht. The Half Moon, as the yacht is now known, has a rich history and currently lies on the seabed off the east coast of Florida. Whether the steel contains the minimum 10.5% chromium content remains inconclusive. Employees of the Krupp works, Eduard Maurer and Benno Strauss, also worked from 1912-1914 on developing austenitic steels using <1% carbon, <20% nickel and 15-40% chromium. Not happy with Europe hogging the glory, the USA got in on the act. Firstly, Elwood Haynes, after becoming disenchanted at his rusty razor, set out to create a corrosion resistant steel, which he supposedly succeeded in doing during 1911. Two other Americans, Becket and Dantsizen, worked on ferritic stainless steels, containing 14-16% chromium and 0.07-0.15% carbon, in the years 1911-1914. Elwood Haynes During 1912 Max Mauermann of Poland is rumoured to have created the first stainless steel, which he later presented to the public during the Adria exhibition in Vienna, 1913. Finally, a recently discovered article, which was published in a Swedish hunting and fishing magazine in 1913, discusses a steel used for gun barrels, (sound familiar?), which seems to resemble stainless steel. Although this is purely speculation, the Swedes have still made an audacious claim that they were in fact responsible for the first practical application for stainless steel. That concludes the shambolic discovery of stainless steel! Although there is much mystery and speculation behind the discovery of this wonderful material, there is no question that without the combined effort of all the above scientists and metallurgists, (and all the many more that were not mentioned), we would not have such a rich and versatile metal at our fingertips. https://bssa.org.uk/bssa_articles/the-discovery-of-stainless-steel/#:~:text=On%20the%2013th%20August%201913,the%20first%20ever%20stainless%20steel. This stainless steel container was donated to Flagstaff Hill Maritime Village by the family of Doctor William Roy Angus, Surgeon and Oculist. It is part of the “W.R. Angus Collection” that includes historical medical equipment, surgical instruments and material once belonging to Dr Edward Ryan and Dr Thomas Francis Ryan, (both of Nhill, Victoria) as well as Dr Angus’ own belongings. The Collection’s history spans the medical practices of the two Doctors Ryan, from 1885-1926 plus that of Dr Angus, up until 1969. ABOUT THE “W.R.ANGUS COLLECTION” Doctor William Roy Angus M.B., B.S., Adel., 1923, F.R.C.S. Edin.,1928 (also known as Dr Roy Angus) was born in Murrumbeena, Victoria in 1901 and lived until 1970. He qualified as a doctor in 1923 at University of Adelaide, was Resident Medical Officer at the Royal Adelaide Hospital in 1924 and for a period was house surgeon to Sir (then Mr.) Henry Simpson Newland. Dr Angus was briefly an Assistant to Dr Riddell of Kapunda, then commenced private practice at Curramulka, Yorke Peninsula, SA, where he was physician, surgeon and chemist. In 1926, he was appointed as new Medical Assistant to Dr Thomas Francis Ryan (T.F. Ryan, or Tom), in Nhill, Victoria, where his experiences included radiology and pharmacy. In 1927 he was Acting House Surgeon in Dr Tom Ryan’s absence. Dr Angus had become engaged to Gladys Forsyth and they decided he would take time to further his studies overseas in the UK in 1927. He studied at London University College Hospital and at Edinburgh Royal Infirmary and in 1928, was awarded FRCS (Fellow from the Royal College of Surgeons), Edinburgh. He worked his passage back to Australia as a Ship’s Surgeon on the on the Australian Commonwealth Line’s T.S.S. Largs Bay. Dr Angus married Gladys in 1929, in Ballarat. (They went on to have one son (Graham 1932, born in SA) and two daughters (Helen (died 12/07/1996) and Berenice (Berry), both born at Mira, Nhill ) Dr Angus was a ‘flying doctor’ for the A.I.M. (Australian Inland Ministry) Aerial Medical Service in 1928 . The organisation began in South Australia through the Presbyterian Church in that year, with its first station being in the remote town of Oodnadatta, where Dr Angus was stationed. He was locum tenens there on North-South Railway at 21 Mile Camp. He took up this ‘flying doctor’ position in response to a call from Dr John Flynn; the organisation was later known as the Flying Doctor Service, then the Royal Flying Doctor Service. A lot of his work during this time involved dental surgery also. Between 1928-1932 he was surgeon at the Curramulka Hospital, Yorke Peninsula, South Australia. In 1933 Dr Angus returned to Nhill where he’d previously worked as Medical Assistant and purchased a share of the Nelson Street practice and Mira hospital from Dr Les Middleton one of the Middleton Brothers, the current owners of what was once Dr Tom Ryan’s practice. Dr L Middleton was House Surgeon to the Nhill Hospital 1926-1933, when he resigned. [Dr Tom Ryan’s practice had originally belonged to his older brother Dr Edward Ryan, who came to Nhill in 1885. Dr Edward saw patients at his rooms, firstly in Victoria Street and in 1886 in Nelson Street, until 1901. The Nelson Street practice also had a 2 bed ward, called Mira Private Hospital ). Dr Edward Ryan was House Surgeon at the Nhill Hospital 1884-1902 . He also had occasions where he successfully performed veterinary surgery for the local farmers too. Dr Tom Ryan then purchased the practice from his brother in 1901. Both Dr Edward and Dr Tom Ryan work as surgeons included eye surgery. Dr Tom Ryan performed many of his operations in the Mira private hospital on his premises. He too was House Surgeon at the Nhill Hospital 1902-1926. Dr Tom Ryan had one of the only two pieces of radiology equipment in Victoria during his practicing years – The Royal Melbourne Hospital had the other one. Over the years Dr Tom Ryan gradually set up what was effectively a training school for country general-practitioner-surgeons. Each patient was carefully examined, including using the X-ray machine, and any surgery was discussed and planned with Dr Ryan’s assistants several days in advance. Dr Angus gained experience in using the X-ray machine there during his time as assistant to Dr Ryan. Dr Tom Ryan moved from Nhill in 1926. He became a Fellow of the Royal Australasian College of Surgeons in 1927, soon after its formation, a rare accolade for a doctor outside any of the major cities. He remained a bachelor and died suddenly on 7th Dec 1955, aged 91, at his home in Ararat. Scholarships and prizes are still awarded to medical students in the honour of Dr T.F. Ryan and his father, Dr Michael Ryan, and brother, John Patrick Ryan. ] When Dr Angus bought into the Nelson Street premises in Nhill he was also appointed as the Nhill Hospital’s Honorary House Surgeon 1933-1938. His practitioner’s plate from his Nhill surgery states “HOURS Daily, except Tuesdays, Fridays and Saturday afternoons, 9-10am, 2-4pm, 7-8pm. Sundays by appointment”. This plate is now mounted on the doorway to the Port Medical Office at Flagstaff Hill Maritime Village, Warrnambool. Dr Edward Ryan and Dr Tom Ryan had an extensive collection of historical medical equipment and materials spanning 1884-1926 and when Dr Angus took up practice in their old premises he obtained this collection, a large part of which is now on display at the Port Medical Office at Flagstaff Hill Maritime Village in Warrnambool. During his time in Nhill Dr Angus was involved in the merging of the Mira Hospital and Nhill Public Hospital into one public hospital and the property titles passed on to Nhill Hospital in 1939. In 1939 Dr Angus and his family moved to Warrnambool where he purchased “Birchwood,” the 1852 home and medical practice of Dr John Hunter Henderson, at 214 Koroit Street. (This property was sold in1965 to the State Government and is now the site of the Warrnambool Police Station. ). The Angus family was able to afford gardeners, cooks and maids; their home was a popular place for visiting dignitaries to stay whilst visiting Warrnambool. Dr Angus had his own silk worm farm at home in a Mulberry tree. His young daughter used his centrifuge for spinning the silk. Dr Angus was appointed on a part-time basis as Port Medical Officer (Health Officer) in Warrnambool and held this position until the 1940’s when the government no longer required the service of a Port Medical Officer in Warrnambool; he was thus Warrnambool’s last serving Port Medical Officer. (The duties of a Port Medical Officer were outlined by the Colonial Secretary on 21st June, 1839 under the terms of the Quarantine Act. Masters of immigrant ships arriving in port reported incidents of diseases, illness and death and the Port Medical Officer made a decision on whether the ship required Quarantine and for how long, in this way preventing contagious illness from spreading from new immigrants to the residents already in the colony.) Dr Angus was a member of the Australian Medical Association, for 35 years and surgeon at the Warrnambool Base Hospital 1939-1942, He served as a Surgeon Captain during WWII1942-45, in Ballarat, Victoria, and in Bonegilla, N.S.W., completing his service just before the end of the war due to suffering from a heart attack. During his convalescence he carved an intricate and ‘most artistic’ chess set from the material that dentures were made from. He then studied ophthalmology at the Royal Melbourne Eye and Ear Hospital and created cosmetically superior artificial eyes by pioneering using the intrascleral cartilage. Angus received accolades from the Ophthalmological Society of Australasia for this work. He returned to Warrnambool to commence practice as an ophthalmologist, pioneering in artificial eye improvements. He was Honorary Consultant Ophthalmologist to Warrnambool Base Hospital for 31 years. He made monthly visits to Portland as a visiting surgeon, to perform eye surgery. He represented the Victorian South-West subdivision of the Australian Medical Association as its secretary between 1949 and 1956 and as chairman from 1956 to 1958. In 1968 Dr Angus was elected member of Spain’s Barraquer Institute of Barcelona after his research work in Intrasclearal cartilage grafting, becoming one of the few Australian ophthalmologists to receive this honour, and in the following year presented his final paper on Living Intrasclearal Cartilage Implants at the Inaugural Meeting of the Australian College of Ophthalmologists in Melbourne In his personal life Dr Angus was a Presbyterian and treated Sunday as a Sabbath, a day of rest. He would visit 3 or 4 country patients on a Sunday, taking his children along ‘for the ride’ and to visit with him. Sunday evenings he would play the pianola and sing Scottish songs to his family. One of Dr Angus’ patients was Margaret MacKenzie, author of a book on local shipwrecks that she’d seen as an eye witness from the late 1880’s in Peterborough, Victoria. In the early 1950’s Dr Angus, painted a picture of a shipwreck for the cover jacket of Margaret’s book, Shipwrecks and More Shipwrecks. She was blind in later life and her daughter wrote the actual book for her. Dr Angus and his wife Gladys were very involved in Warrnambool’s society with a strong interest in civic affairs. Their interests included organisations such as Red Cross, Rostrum, Warrnambool and District Historical Society (founding members), Wine and Food Society, Steering Committee for Tertiary Education in Warrnambool, Local National Trust, Good Neighbour Council, Housing Commission Advisory Board, United Services Institute, Legion of Ex-Servicemen, Olympic Pool Committee, Food for Britain Organisation, Warrnambool Hospital, Anti-Cancer Council, Boys’ Club, Charitable Council, National Fitness Council and Air Raid Precautions Group. He was also a member of the Steam Preservation Society and derived much pleasure from a steam traction engine on his farm. He had an interest in people and the community He and his wife Gladys were both involved in the creation of Flagstaff Hill, including the layout of the gardens. After his death (28th March 1970) his family requested his practitioner’s plate, medical instruments and some personal belongings be displayed in the Port Medical Office surgery at Flagstaff Hill Maritime Village, and be called the “W. R. Angus Collection”. The W.R. Angus Collection is significant for still being located at the site it is connected with, Doctor Angus being the last Port Medical Officer in Warrnambool. The collection of medical instruments and other equipment is culturally significant, being an historical example of medicine from late 19th to mid-20th century. Dr Angus assisted Dr Tom Ryan, a pioneer in the use of X-rays and in ocular surgery. Medical box; rectangular stainless steel base and separate lid, from the W.R. Angus Collection.warrnambool, flagstaff hill maritime museum, great ocean road, dr w r angus, dr ryan, surgical instrument, t.s.s. largs bay, warrnambool base hospital, nhill base hospital, mira hospital, flying doctor, medical treatment, stainless steel medical container, medical container, stainless steel

Large hard covered book containing names and photographs of 159 deceased Servicemen. Lest We Forget. Roll of Honor. Dedicated to the gallant Sons and Daughters in the Fighting Services of the Dandenong Branch of the Sailors Soldiers and Airmen,s Fathers Association of Victoria. Let not their Sacrifices be in Vain. Photographs are of the following. 143736 RAAF. Y.D Bending. 128756 RAAF LAC R. J. Berry. VX 66913 AIF Pte. J. M. Bland. VX 67586 AIF Sgt. C. Boote. VX 37378 AIF Pte. H. E. Bould. VX 72867 AIF Pte. C. J. Bould. 59887 RAAF LAC. V. A. Bould. VX 41802 AIF Dvr. J. Bradley. VX 113184 AIF Sgt. R. B. Brooks. VX 109393 AIF Sgt. A. Y. Brooks. 49145 RAAF Corp. R. J. Brooks. VX 64333 AIF Corp. D. L. Brumley. WX 9742 AIF. Pte. T. H. Budgeon. VX 85885 AIF Gunner W. M. Buttler. VX 137411 AIF Pte. A.W Cameron. 400037 RAAF Flt. Lieut. W J Canterbury. VX 85253 AIF Capt. T C Canterbury. 49218 RAAF Lac. S E Cannard. VX 24291 AIF Capt. A L Carthew. VX 132044 AIF Gunner G Chandler. VX 68692 AIF Bdr. A J Chandler. 128776 RAAF Acr. D Chrisfield. VX 90726 AIF Gunner W J Chrisfield. 401631 RAAF Flt. Sgt. S Cooper. W2091 RAN Stoker H J B Cooper. VX52731 AIF Cpl. C B Cooper. VX92695 AIF Pte. J M Cornish. 13774 RAAF Flt. Sgt. G R Coulthard. RAN Stoker H F Cross. RAN Stoker. R O Cross. VX15688 AIF Bmd. E J Curran. 42998 RAAF Sgt. R F Dawson. VX 5835 AIF Pte. R R N Dobson. VX 110898 AIF Gunner R B Dunn. RAN Stoker E W Eades. 401424 RAAF Pilot Off. H L Edgoose. VX 89563 AIF Corp. A R Ewart. 401817 RAF Flg. Off. F P Field. VX 2115 AIF Sgt. J E Ford. VX 53019 AIF Dvr. M G Greyling. VX 100355 AIF LCorp. V F Greyling. VX 137580 AIF Corp.J J Greene. VX 138491 AIF Pte. D M Greene. VX 5828 AIF Corp. G S Hamilton. VX 85863 AIF Gunner. B W Hamilton. VX 80141 AIF Gunner A W Hamilton. VX 51804 AIF Gunner E W Harden. 41632 RAAF Lac. T J Hardy. 121213 RAAF Lac. C W Harvey. VX 29054 AIF Pte. F Howard. VX 11914 AIF Corp.D J Hunter. VX 123189 AIF Signaler A W Hussey. VX 147815 AIF Sapper K B Hussey. VX 42893 AIF Sigr. J Hussey. VX 15925 AIF Pte. D R Irvine. 41389 RAAF A/Crew. M Irvine. VX 52919 AIF Gunner A F Issac. VX 136374 W/Off. M G Jarvis. VX 83137 AIF Sgt. R N Jarvis. VX 6220 AIF Pte. R Johnston. VX 12679 AIF Sigr. A J Johnston. 51831 RAAF Lac. M L Keys. VX 89237 AIF Staff /Adj. C H Llewelyn. 55876 RAAF Corp. J R Llewelyn. VX 139945 Pte. M A Llewelyn. 126096 RAAF Lac. E F Lovie. RAN Sigr. A Luxford. VX 109843 AIF Corp. C Mace. VX 85346 AIF Gunner R Mace. VX 133409 AIF Pte. K J Mackenzie. VX 50667 AIF Pte. K H Macindoe. VX 112854 AIF Corp. L J Marshall. RAN A/B M A McCallum. VX 66713 AIF Trooper J L Mc Calman. AIF Corp. J L Mc Carthy. RAAF A/C K Mc Carthy. VX 144119 AIF C/M A J McConnell. VX 26648 AIF Pte. K L McCoy. VX 63759 Pte. S V McCoy. 128190 RAAF Lac. G E McDonald. VX 101980 AIF W/O A McDonough. VX 83581 AIF Dvr. N P McGrath. VX 64933 AIF Pte. J McLaren. VX 5086 AIF Pte P McLaren. VX 48798 AIF Lieut. R A McPherson. 125723 RAAF Lac. G M McPherson. 52002 RAAF Lac. G W Mussett. VX 80158 AIF Pte. K S G Nankivell. VX 18938 AIF Dvr. W H Norris. VX 41804 AIF Pte. R E Norris. VX 137948 AIF Lieut. E C C Norris. VX 122762 AIF Sgt. G C Norris. VX 902 AIF Bombd. S G Oakley. VX 113395 AIF Sgt. K J Oldmeadow. NX 84580 AIF Gunner L Oldmeadow. 118349 RAAF Lac. M W Oldmeadow. RAAF F/O C J Oldmeadow. 205672 RAAF W/O A R Orr. VX 14383 AIF Dvr. D C Owler. 428562 RAAF Lac W G Pocknee. RAAF F/O F R Pocknee. VX 47310 AIF Sgt. J Pocknee. 142216 RAAF A/C G Palmer. VX130212 AIF Sgt. J A Palmer. VX 5838 AIF Corp. A L Philp. VX 36554 AIF Pte. R H Phillips. VX 121360 AIF Pte. S Phillips. VX 44179 AIF Signr. H Phillips. 418565 RAAF F/Sgt. J Phillipson. VX 65396 AIF Sgt. A L Pike. 408515 RAAF F/O H L Pleydell. VX 56464 AIF Pte G Randall. VX 101729 AIF Sapper J Richards. VX 1393 AIF Corp. A Rice. 252694 RAAF F/O J J Rice. VX 47285 AIF Gunner W J Riddell. VX 29095 AIF Corp. E W Riddell. VX 115375 AIF Bombd. R C T Riddell. VX 55435 AIF Sgt. B C Robert. VX 107273 AIF Bombd. W H Rodd. VX 62248 AIF Trooper A B Rogers. VX 6417 AIF Lieut. A C Russell. VX 79861 AIF Sapper A G Ryland. PM 542 RAN C.P.O E G Saggers. 410734 RAAF P/O. W Schoon. VX 133783 AIF L/Cpl. J Sharkie. VX 118910 AIF Gunner R T Sleeth. RAN Stoker A R Smith. VX 70614 AIF Pte,R S T Smith. VX 29106 AIF Pte. N Smith. VX 108076 AIF Lieut. L B Stuart. RAN Stoker N D StClair. RAAF Flt/Off. D Swann. 252284 RAAF Flt/Lieut. M R Swann. 408537 RAAF Sgt/Pilot R R J Swords. 51502 RAAF Lac. L R Taylor. VX 55365 AIF Tpr. C Tebb. VX 75522 AIF Pte. R J Toogood. VX 102902 AIF Sapper L B Topsell. VX 143983 AIF Pte. G Vines. VX 54677 AIF Sgt. H A Vines. VX 53827 AIF Cpl. A Walker. 410743 RAAF Flt/Sgt. J M Walker. VX 48654 AIF Sapper S R Walters. VX 69063 AIF Sapper C H Walters. 428392 RAAF Sgt. R C Westmoreland. VX 119494 AIF Dvr. W H Wharton. VX 73771 AIF Pte. F G Wharton. VX 23645 AIF Dvr. J W Wharton. VX 52333 AIF Pte. R A Wharton. PM 4551 RAN Abl/Sea. C P Whiteman. VX 60652 AIF Slgr. R B S Whitwell. VX 113345 AIF Sgt. W J Williams. VX 42674 AIF Cpl. T J Williams. VX 143637 AIF Pte. T A Williams. VX 88121 AIF Capt. R E Williams. 41738 RAAF Cpl. A F Wood. 49725 RAAF Lac. K A Wood. 42333 RAAF Cpl. S T Wood.

Index, ill (plates col, b/w), maps, p.364.non-fiction"What happens to the elite, close-knit soldiers of the SAS after they leave the tight world of the military? For some, there are highly paid jobs as trigger men with security companies in the worlds war zones and trouble spots. But for many, unexpected adventures unfold. Some go on to establish and lead major corporations or to advise multinational companies about risk where the commercial stakes are high. Some join foreign defence forces, training new elite special forces in unusual places. For others, life takes a different twist. They become top government advisers and even hardened criminals. Most sinister of all is the shadowy world of black ops - risky, rewarding and adrenaline-driven jobs that governments always deny. But wherever they are, the former elite soldiers are never far from each other, bound in an exclusive global network of brothers-in-arms."-soldiers - retirement, australian army - special air regiment

p.394.fictionWhen war was declared on 3 September 1939, No. 1 Squadron was posted to France to help the BEF halt the German advance. The Squadron is hardy, intensely loyal, and at the beginning of the campaign, hugely successful in shooting down German planes when they are often outnumbered. Then the offensive begins in earnest, the losses mount and the horror of the retreat to Dunkirk gives a whole new meaning to the concept of total war.Told through the experiences of an English pilot, Kit Curtis, who dreams of gallant deeds and personal glory, and a more battle hardened American, Ossie Wolf, this is 'Band of Brothers' for the RAF, a no-holds-barred, action packed war thriller.world war 1939-1945 - britain - aerial operations - fiction, fighter pilots - fiction

Index, ill, p.296.President Lincoln used his own weapons--his words--to fight the Civil War as brilliantly as any general who ever took the field. In Lincoln on War, historian Harold Holzer gathers and interprets Lincoln's speeches, letters, memoranda, orders, telegrams, and casual remarks, organizing them chronologically and allowing readers to experience Lincoln's growth from an eager young Indian War officer to a middle-aged dove congressman to a surprisingly hardened and determined hawk as the Union's commander-in-chief. We observe a man willing to sacrifice life and treasure in unprecedented quantities, to risk wounding the pride of vain generals, and even to mislead the public if it meant the preservation of an unbreakable union of states, the destruction of slavery, and the restoration of America as an example to inspire the world. This volume covers strategy; tactics; the endless hiring, sustaining, motivating, and dismissal of commanders; military discipline; and military technology. Modern commanders-in-chief have repeatedly quoted Lincoln to justify their own wars, so it behooves us as citizens to know Lincoln's record well. From masterpieces such as the Gettysburg Address to lesser-known meditations on God's purposes, Lincoln on War is the first book to highlight exclusively Lincoln's sublime and enduring words on waramerican civil war 1861-1865 - history, abraham lincoln 1809-1865 - leadership