Showing 35 items
matching mechanical testing
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Moorabbin Air Museum
Book (Item) - Mechanical Testing of Metallic Materials with special references to proof stress by RA Beaumont
... Mechanical Testing of Metallic Materials with special... Moorabbin melbourne Book Mechanical Testing of Metallic Materials ... -
Moorabbin Air Museum
Document (Item) - Supersonic intakes Fatigue calculations ARL gust probe Aerodynamic heating Hypersonic wind tunnel Mechanical testing Transonic testing, Aeronautical research laboratory
... Aerodynamic heating Hypersonic wind tunnel Mechanical testing... heating Hypersonic wind tunnel Mechanical testing Transonic ... -
Moorabbin Air Museum
Document (Item) - GAF - Investigation Into Thompson Fuel Booster Pumps Jindivik Aircraft
... GAF Mechanical Test Report B3-1005... Moorabbin melbourne GAF Mechanical Test Report B3-1005 GAF ...GAF Mechanical Test Report B3-1005 -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS, Thompson's Engineering and Pipe Works, 1943
... MECHANICAL TEST RESULTS...Mechanical Testing... associated with Thompsons. Gun Barrels 17 PDR Mechanical Testing ...By referring to Cat No 7237.2 will bring up all items associated with Thompsons.Two sheets of test results. They are from Thompsons Engineering & Pipe Co to Ordnance Factory, Maribyrnong. They are signed off by (??) Martin. 1. Test sheet for Breech blocks 17 PDR Block Nos 1560-1565, Dated 21/9/43. 2. Test sheet for Breech blocks 17 PDR Block No's 1554 - 1559. Dated 21/9/43.gun barrels, 17 pdr, mechanical testing, thompsons castlemaine, ord factory maribyrning. -
Federation University Historical Collection
Photograph, Black and White, Australian Porcelain Insulator Co. Ltd Factory, 1939, 1939
... pin .3) mechanical test m/c pulsating load 0-35,000 .4...) view of a 22kv line pin .3) mechanical test m/c pulsating load ...Australian Porcelain Insulator Co. Ltd Factory, 1939 Four black and white photographs relating to the Australian Porcelain Insulator Co. Ltd Factory .1) exterior view .2) view of a 22kv line pin .3) mechanical test m/c pulsating load 0-35,000 .4) electrical test room 120kv - 20kva test transformer test capacity. 2 tables approximately 40 feet to 10 inches per table.australian porcelain insulator company, industrial heritage, insulators, electricity, graham beanland -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS, Thompson's Engineering and Pipe Works, 26 Mar 1943
... MECHANICAL TEST RESULTS... of Munitions. Titled - mechanical tests - Test on 25 PDR Breech rings... - mechanical tests - Test on 25 PDR Breech rings. Rings NR (1790-1793 ...By referring to Cat No 7237.2 will bring all items associated with Thompsons.1. Single sheet of paper. From Thompson's Engineering & Pipe Co Ltd to Ordnance Factory Maribyrnong. A/c Ministry of Munitions. Titled - mechanical tests - Test on 25 PDR Breech rings. Rings NR (1790-1793). Dated 26 March 1943. 2. Tensile tests on material for 95 (loose) Barrel forgings for 25 PDR Gun Howitzers. From Thompson's to Commonwealth of Australia - Ministry of Munitions. Barrel 14236/1 (Y2) - Barrel 635/3 - Dated 18 Feb 1942.1. Top has name "Mr. Johnson" written. In the middle is an unidentifiable signature dated 26-3-1943. Bottom has (??) Martin. 2. At bottom signed off by (??) Martin.25 pdr, thompson's castlemaine, ordnance factory maribyrnong. -
Bendigo Military Museum
Document - MEMORANDOM RE TESTS, Thompson's Engineering and Pipe Works, 1942
... , For Mechanical tests on a spcific contract. .... Dated 25 Nov 1942, For Mechanical tests on a spcific contract ...By referring to Cat No 7237.2 will bring up all items associated with Thompsons.These are typed copies of work documents. They are on a lightweight pink paper. They are from Thompson's Engineering to the Bendigo Ordnance factory, Naval Dept. 1. Dated 7 Oct 1942 for tests on breech ring billed in "D" steel contract MON1775. 2. Dated 13 Oct 1942 for tests on Gun metal castings 4"Naval Guns, and Class "D " stee4l for breech rings for 4" Naval Guns. 3. Dated 29 Oct 1942. Test on gunmetal castings. 4. Dated 4 Nov 1942. Tests covered by 3 particular contracts. 5. Dated 25 Nov 1942, For Mechanical tests on a spcific contract. 2.3. & 5. Rubber stamp of a signature - illegibleww2, cannons, manufacture -
The Beechworth Burke Museum
Decorative object - Swinging Clock, Charles Frederick Falck, 1855
This clock was made by Charles Frederick Falck who was a watchmaker and jeweller in Beechworth from 1863-1908. Falck was born in Körlin, Prussia on May 22nd in 1833 and died at the age of 75 in 1908. Ovens and Murray Advertiser, Beechworth: edition June 13, 1908 OBITUARY: Falck was brought up to the business of watch-making, in which he developed exceptional mechanical ingenuity. Attracted by the favourable prospects held out by the Australian discoveries of gold he, like many other young adventurous spirits, left his native land to seek his fortune in the great southern Eldorado, arriving in Adelaide in 1854, and shortly after came to Melbourne where he worked as a journeyman, and subsequently started in business on his own account. Feeling inclined to test his fortune on the goldfields, he went to Blackwood but, meeting with little success, he returned to Melbourne where he was married. In 1862, he moved to Beechworth, where he commenced business as watchmaker and gold-buyer. He then embarked in vine-growing on the Sydney road, but eventually resumed his business avocations. His skill in practical horology was evinced in a clock of his own design and manufacture, surmounted by a golden eagle, which was exhibited at the first Melbourne Exhibition in 1856, and which afterwards formed a pre-eminent attraction in the window of his business premises in Ford Street. For many years, he filled the position of timekeeper to the Beechworth Racing Club, with complete satisfaction also at various sports meetings. He leaves a family of six sons and one daughter (Mrs. Jas. Broadfoot) all arrived at maturity. The funeral, which was well attended by a number of residents, took place at the Beechworth Cemetery on Sunday, the burial service being performed by the Ven. Archdeacon Potter. The cortege was capably supervised by Mr. D. Wilson, undertaker. The clock was returned to Beechworth in 2020 through the generous support of the Copland Foundation. Given that Mr. C. F. Falck traded as a watchmaker and jeweller in Beechworth for 45 years and traded with the 1855 clock mounted in his front window, there is a direct link between the clocks and the social, cultural and economic life of nineteenth century Beechworth at time when the town was developing and expanding in response to gold mining. This clock represent the significant skill and expertise of Charles Falck as an horologist. Medium-sized pendulum clock featuring a carved gilt wood eagle with wings outstretch (épandre - expanded with wing-tips directed upwards) and perched above a pendulum rod that holds a silver dial clock face within a reeded sunburst surround. The clock has an eight-day fuse movement with dead beat escapement wound from the clock face. C. F. F. FALCK / EXHIBITION 1856 / MELBOURNEburke museum, copland foundation, beechworth, leonard joel, auction, purchase, clock, pendulum, eagle, eagle clock, charles frederick falck, c. f. falck, falck, horology, pendulum clock, melbourne -
The Beechworth Burke Museum
Decorative object - Swinging Clock, Charles Frederick Falck, 1870
This clock was made by Charles Frederick Falck who was a watchmaker and jeweller in Beechworth from 1863-1908. Falck was born in Körlin, Prussia on May 22nd in 1833 and died at the age of 75 in 1908. Ovens and Murray Advertiser, Beechworth: edition June 13, 1908 OBITUARY: Falck was brought up to the business of watch-making, in which he developed exceptional mechanical ingenuity. Attracted by the favourable prospects held out by the Australian discoveries of gold he, like many other young adventurous spirits, left his native land to seek his fortune in the great southern Eldorado, arriving in Adelaide in 1854, and shortly after came to Melbourne where he worked as a journeyman, and subsequently started in business on his own account. Feeling inclined to test his fortune on the goldfields, he went to Blackwood but, meeting with little success, he returned to Melbourne where he was married. In 1862, he moved to Beechworth, where he commenced business as watchmaker and gold-buyer. He then embarked in vine-growing on the Sydney road, but eventually resumed his business avocations. His skill in practical horology was evinced in a clock of his own design and manufacture, surmounted by a golden eagle, which was exhibited at the first Melbourne Exhibition in 1856, and which afterwards formed a pre-eminent attraction in the window of his business premises in Ford Street. For many years, he filled the position of timekeeper to the Beechworth Racing Club, with complete satisfaction also at various sports meetings. He leaves a family of six sons and one daughter (Mrs. Jas. Broadfoot) all arrived at maturity. The funeral, which was well attended by a number of residents, took place at the Beechworth Cemetery on Sunday, the burial service being performed by the Ven. Archdeacon Potter. The cortege was capably supervised by Mr. D. Wilson, undertaker. The clock was returned to Beechworth in 2020 through the generous support of the Copland Foundation and the Friends of the Burke. Given that Mr. C. F. Falck traded as a watchmaker and jeweller in Beechworth for 45 years and traded with the 1855 clock mounted in his front window, there is a direct link between the clocks and the social, cultural and economic life of nineteenth century Beechworth at time when the town was developing and expanding in response to gold mining. This clock represent the significant skill and expertise of Charles Falck as an horologist. Large swinging clock featuring a carved gilt wood eagle with its wings outstretched (abaisé - expanded with wing-tips lowered) and perched above a pendulum rod that holds a silvered dial clock face within a reeded sunburst surround. (Similar to #2019.056.01) The clock has an eight-day fuse movement with dead beat escapement wound from the clock face. C. F. FALCK / WATCHMAKERburke museum, copland foundation, beechworth, leonard joel, auction, purchase, clock, pendulum, eagle, eagle clock, charles frederick falck, c. f. falck, falck, horology, pendulum clock, melbourne -
Flagstaff Hill Maritime Museum and Village
Equipment - Scale and weights, 1860-1900
The subject item was made in England by W&T Avery a British manufacturer of weights and weighing machines. The company was founded in the early 18th century and took the name W & T Avery in 1818. The undocumented origin of the company goes back to 1730 when James Ford established the business in the town of Digbeth. On Joseph Balden, the then company’s owner’s death in 1813 William and Thomas Avery took over his scale making business and in 1818 renamed it W & T Avery. The business rapidly expanded and in 1885 they owned three factories: the Atlas Works in West Bromwich, the Mill Lane Works in Birmingham and the Moat Lane Works in Digbeth. In 1891 the business became a limited company with a board of directors and in 1894 the shares were quoted on the London Stock Exchange. In 1895 the company bought the legendary Soho Foundry in Smethwick, a former steam engine factory owned by James Watt & Co. In 1897 the move was complete and the steam engine business was gradually converted to pure manufacture of weighing machines. The turn of the century was marked by managing director William Hipkins who was determined to broaden the renown of the Avery brand and transform the business into specialist manufacture of weighing machines. By 1914 the company occupied an area of 32,000m² and had some 3000 employees. In the inter-war period, the growth continued with the addition of specialized shops for cast parts, enamel paints and weighbridge assembly and the product range diversified into counting machines, testing machines, automatic packing machines and petrol pumps. During the second world war, the company also produced various types of heavy guns. At that time the site underwent severe damage from parachute mines and incendiary bombs. Then from 1931 to 1973, the company occupied the 18th-century Middlesex Sessions House in Clerkenwell as its headquarters. Changes in weighing machine technology after World War II led to the closure of the foundry, the introduction of electronic weighing with the simultaneous gradual disappearance of purely mechanical devices. The continued expansion was partly achieved through a series of acquisitions of other companies. After almost a century of national and international expansion, the company was taken over by GEC in 1979. Keith Hodgkinson, managing director at the time, completed the turn-around from mechanical to electronic weighing with a complete overhaul of the product range of retail sales of industrial platform scales. In 1993 GEC took over the Dutch-based company Berkel and the Avery-Berkel name was introduced. In 2000 the business was in turn acquired by the US-American company Weigh-Tronix, who already owned Salter, and is today operating as Avery Weigh-Tronix.An item used by grocers and merchants throughout the then British colonies of England to weigh store-bought goods around the mid to late 19th century. This item gives an insight into the daily lives of early colonial settlers and is a significant part of the era’s social history of the time.Balance scale and weights with removable dish, two round weights glued to tray 4oz and 8oz. Scales 'to weigh up to 28lb. Printed in gold on black labels each side "W & T AVERY LTD", "BIRMINGHAM" warrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, scale and weights, food preparation equipment, w t avery ltd, balance scale, grocers scales, james ford, william & thomas avery, birmingham uk -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS WW2, Thompson's Engineering and Pipe Works, 1942
... MECHANICAL TEST RESULTS WW2... MECHANICAL TEST RESULTS WW2 Thompson's Engineering and Pipe Works. ...By referring to Cat No 7237.2 this will bring up all associated items with Thompsons.This is a set of nine pages of steel, marine engine parts and naval gun parts - testing. The sheets have the letterhead of Thompsons Engineering and Pipe Co Ltd., Castlemaine. The results are to the Commonwealth of Australia 1 - 4. Marine Engine Parts. Dated 1945- 46 5 - 6. 4" Naval gun parts tests. Dated 1942. 7. Corvette Marine engine parts. Dated 1942. 8. Breach blocks for CQF M4 XIX ?? Dated 1942. 9. Tensile & bend tests Steel. Dated 1942.steel testing, marine engine parts -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS WW2, Thompson's Engineering and Pipe Works, 1942
... MECHANICAL TEST RESULTS WW2.... Document MECHANICAL TEST RESULTS WW2 Thompson's Engineering ...By referring to Cat No 7237.2 will bring up all items associated with Thompsons.This is a set of 3 sheets of steel tests on 6 PDR anti-tank gun tests. From Thompsons Engineering & Pipe Co. Lt Castlemaine to General Motors Holden, South Aust A/C Ministry of Munitions. 1. Barrel NRS 2483 - 2484 - 2498 - 2499 - Dated 1943. 2. Barrel NRS 1809 - 1812 - 1826 - 1827 - Dated 1942. 3. Barrel NRS 1876 - 1877 - 1859 - 1871 - Dated 1943.Signed off by (?) Martin.gun barrel tests, pdr anti- tank. -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS, Thompson's Engineering and Pipe Works, 1942
... MECHANICAL TEST RESULTS...) (1571 - 1575) (1582 - 1587) Document MECHANICAL TEST RESULTS ...By referring to Cat No 7237.2 will bring up all items associated with Thompsons.Single sheet of paper. Tests on material for 150 Breech blocks for QF 17 PDR Guns. From: Thompson's Engineering & Pipe Co. Ltd. dated 19/10/1942. To: Ministry of Munitions A/C Ordnance Factory Maribyrnong. The tests cover Breech Blocks. (1508 - 1513) (1542 - 1547) (1554 - 1559) (1560 - 1565) (1571 - 1575) (1582 - 1587) Signed off at bottom by (??) Martin.17 pdr a/tn gun, steel testing, ww2 -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS, Thompson's Engineering and Pipe Works, 1942-45
... MECHANICAL TEST RESULTS... Commonwealth of Aust. Dated 1945. Document MECHANICAL TEST RESULTS ...By referring to Cat No 7237.2 will bring up all items associated with Thompsons.There are 8 sheets of test results for various heavy machinery. From Thompson's Engineering & Pipe Co. Ltd. 1. - 2. To C of A - Ord Factory Bendigo - Dated 1942 & 1943. 3. To Ord Factory Maribyrnong Dated 1944. 4. To Chas Ruwoldt Pty Ltd Dated 1945. 5. To C of A O.F.M (Maribyrnong) Dated 1945. 6. To Chas Ruwoldt Pty Ltd. Dated 1945 7. To Chas Ruwoldt Dated 1945. 8. To Ord Factory Bendigo. A/c Commonwealth of Aust. Dated 1945.Most have been signed off by (??) Martin. .5 has a red note - to be renormalised at 8.30c J. Adams 8/8/44.thompsons castlemaine, test results, ww2 -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS, Thompson's Engineering and Pipe Works, 10 Dec 1943
... MECHANICAL TEST RESULTS... MECHANICAL TEST RESULTS Thompson's Engineering and Pipe Works. ...By referring to Cat No 7237.2 will bring up all items associated with Thompsons.These are four test results on 6 PDR Barrels. They are from Thompson's Engineering and Pipe Co Ltd. 1. Polster barrels converted from 6 PDR Barrels dated 16/ 11/ 43. To General Motors Holden Ltd. Polster barrels No's 3083- 3085, 3087, 3090, 3091. Signed off by (??) Martin. 2. Bofor Barrel converted from 6 PDR Barrel. Dated 25/11/43. To Ord Factory Maribyrnong. Barrell No. V1589/1. 3. 6 PDR Barrel No. 3243. Dated 8/12/43. To General Motors Holden Ltd. Signed by (??) Martin. 4. Bofor Barrel converted from 6 PDR Barrel Dated 10/12/43. To Ord Factory Maribyrnong. Signed off by (??) Martin.gun barrels, testing, ord factory maribyrnong, general motors holden -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS, Thompson's Engineering and Pipe Works, 1943-44
... MECHANICAL TEST RESULTS... Ltd Ministry of Munitions. Dated 9/2/1944. Document MECHANICAL ...By referring to Cat No 7237.2 will bring up all items associated with Thompsons. 2 sheets of paper from Thompson Engineering & Pipe Co Ltd, signed by (??) Martin. 1. 25 PDR Breech rings No's 2671-2673. To Chas Ruwoldt Pty Ltd, A/C Ministry of Munitions. Dated 9/12/43. 2. 25 PDR Axles. No. 870-877-882-883. To Chas Ruwoldt Pty Ltd Ministry of Munitions. Dated 9/2/1944.25 pdr guns, chas ruwoldt p/l, thompsons castlemaine -
Bendigo Military Museum
Document - MECHANICAL TEST RESULTS, Thompson's Engineering and Pipe Works, 1943
... MECHANICAL TEST RESULTS... MECHANICAL TEST RESULTS Thompson's Engineering and Pipe Works. ...By referring to Cat No 7237.2 will bring up all items associated with Thompsons. Two sheets of paper from Thompson Engineering & Pipe Co. Ltd. To Ordnance Factory Maribyrnong Dated 18/8/43. Signed off by (??) Martin. 1. Results for tests on roller paths for 3.7 AA Guns (Batch 15). 2. Results for tests on roller paths for 3.7AA guns (Batch 9). Signed off by (??) Martin.3.7"aa guns, ord factory maribyrnong, thompsons castlemaine -
Federation University Historical Collection
Document - Document - Design, E J Barker: Ballarat College of Advanced Education: Final Year Project Report; "Internal Combustion Engine Driven Heat Pump", 1984
Mechanical Engineering Department Ballarat C.A.E. Final Year Report submitted by John Barker, 1984. The Report was "Internal Combustion Engine Driven Heat Pump". His supervisor was L E Taylor. The location of the experimental rig was in the Thermodynamics Laboratory at Ballarat Council of Advanced Education. This project involved the design, construction and limited testing of an Internal Combustion Engine Driven Heat Pump, utilising full waste heat recovery, for the purpose of heating mains supply water. John is the son of Jack Barker, foundation director of Ballarat College of Advanced Education.75 page report - typed with photos and diagrams. 38 pages - Appendix 1-8engineering, vice principal, foundation director, ballarat college of advanced education, bcae, mount helen campus, engineering drawing, design, manufacture, heat engines, internal combustion engine, report, supervisor, l e taylor, john barker, internal combustion engine driven heat pump, heat recovery, thermodynamics laboratory -
Federation University Historical Collection
Book, British Standard Mechanical Tests for Metals, 1951
... MEchanical tests tensile tests hardress tests Blue cloth covered book ...Blue cloth covered book of 243 pagesnon-fictionmechanical tests, tensile tests, hardress tests -
Federation University Historical Collection
Booklet, The Ballarat School of Mines and Industries 1870-1920 Jubilee Booklet, 1920 (estimated)
The first school of Mines in Australia was established at Ballarat in 1870. At the time of its jubilee (1930) the following people were members of the School Council: W.H. Middleton (President), W.T. Humphreys (VP), J.S. Vickery (VP), F. Barrow, Col. W.K. Bolton, William Baragwanath, A.E. Cutter, J.N. Dunn, G. Fitches, W.H. Fleay, F. Herman. W.D. Hill, T. Hurley, K. Kean. J. Kelly, L. Lederman, Mayor of Ballarat, Mayour of Ballarat East, D. Maxwell, M. Martin, R. Maddern, D. Ronaldson, F. Saunders, R. Stephenson, A.O. Stubbs, R.E. Tunbridge. The School Staff in 1920 comprised: Herbert H. Smith, Walter Rowbotham, Reginald L. Cutter, M.C. Young, Hilda Wardle, M. Wiliamson, P.S. Richards, L.H. Archibald, J. Woods, Ken Moss, W. Kenneth, Mrs McIlvena. B. Robinson, S. Rowe, E. Hope-Jones, Miss Abrams, L.St.G.P. Austin, Alfred Mica Smith, J.R. Pound, Herbert R. Murphy, N.H. Junner, Maurice Copland, L.H. Archibald, E.J.A. McConnon, Newton King, D.m. Hull, T.R. Gordon, John M. Sutherland, T.K. Jebb, Dick Richards, C. Tonkin, A.W. Steane, J. Paterson, H.W. Malin, R.V. Maddison, S.M. Mayo, F.A. King, W.H. Steane, T.R. Gordon, T.A. Williams, H. Waldron, G. Black, E.J. McConnon, R.V. Duncan. R. Cutter, E.G. Vawdrey, Hilda WardleWhite stapled booklet - landscape format - 20pp + soft covers with blue writing. Includes an historical sketch of the Ballarat School of Mines. Contains images of the school from around 1920. The history outlined in the booklet follows: 'Ballarat has helped to influence the life and destinies of Australia in many ways, the recital of which would perhaps prove tedious to the citizens of less favoured localities! However, it can be said, without much fear of contradiction, that only less known thought Australia than its fame as a gold field is the reputation won for it by its school of Mines, ... Ballarat was still quite a new place when the School was founded, but a very propserous and popular place all the same, with a go-ahead lot of citizens brim full of the spirit of enterprise which seemsto animate mining populations generally. Money was plentiful, and they launched out into ventures, which later, were to develop and take the place of the gold mines, while what is more to the point, they understood the value of education. the old digging days were passing away. So far as Ballarat itself was concerned the day of the cradle and tin dish had already passed into an antiquity "as dead and distant as the age of the Tubal Caon," said dir redmond Barry on declaring the School open. Mining had become a serious business, and the mining engineer, the metallurgist, and the geologist had become a power in the land. In these circumstances the suggestions to found a School of Mines met with ready acceptance. The late Mr James M. Bickett had the honor of bringing forward the proposition at a meeting of the Ballarat Mining Board in October, 1869. it was agreed to, and the Government, having been approached for assistance, granted a lease of the old Supreme Court buildings at a nominal reantal. A modest sum, including 100 pounds from the Borough Council of Ballarat West, was subscribed by a number of sympathisers, and on the 26th October, 1870, the inaugural address was delivered by Sir Redmond Barry, the first President of the School. Classes were commenced on the 23rd January, 1871. The students at first were mostly adults. They were chiefly men emloyed at the mines, who had the wisdom and energy to devote their spare time to study, and, though their attendance was somewhat irregular, they made very good progress. Old prints which have been preserved show them at work at furnaces, big bearded men of the old-fashioned type of miner. It is interesting to note that among those who gave evidence and encouragement was Sir Roderick Murchison, who many years before had advised Cornish miners to emigrate to Australia to search for gold, and who in 1848 was in possession of gold ore sent from this country. Sir Roderick sent a parcel of books for the library, and gave useful advice as to the curriculum which should be adopted. The Museum, which now contains a most valuable collection of minerals, was one of the first things attended to, and the reports presented to the Council from time to time speak of additions being made from all parts of the world. New equipment was constantly being added to the School, a good deal of assay work was done, and some specimens were sent from the East Indies for examination as far back as 1873. By this time there was a difficulty in providing accomodation for the students who wished to enrol, and the number of instructors had grown from two to four. In 1882 the first building was being erected on what was then part of the gaol reserve. A little more than ten years afterwards a buildnig formerly serving as a Methodist Church was absorbed, while later on, the demand for accomodation increasing, the attack upon the gaol was renewed. The School continued to grow in reputation and size, and became the science centre of the district, and in 1889 a learge new building was opened by Sir Alexander Peacock. Students came from over seas as well as from all the States of Australia, and after going through their courses they took with them the name and fame of the old School to all parts of the globe. School of Mines boys have played a great part in developing the mining fields of Western Australia, South Australia, and africa, while old students who have made a name in their profession are constantly dropping in to see how the old place is getting along. It was not to be expected, however, that the Ballarat School would be left without rivals, its very success inspiring competition. Mining Schools were started in other parts of Australia, and, at the same time, Victoria ceased to hold first place as a mining state. On the other hand there was a great advance in manufacturing, and the demand for technicaly trained men became a great and as insistent as ever it had been for trained mining men. The Council was quick to adapt the school to the new conditions, and the result is seen in the institution, which is one of Ballarat's proudest possession. Instruction is given in all branches of technical work, and the classes are filled with students who are building up for Ballarat a reputation as an industrial centre, which promises to equal that which it formerly held as a mining town. Owing to its bracing climate, its abundant opportunities for recreations, and its accessibilty, Ballarat as a city is an ideal place for educational purposed, and is yearly becoming more and more appreciated throughout the State. The chairman of one of Ballarat's biggests industries claims that the workman can do twice the day's work here that he can do in Melbourne. he was a little enthusiastic over it, perhaps, but it is a well-known fact that the healthy and invigourating Ballarat climate is conducive to both physical and mental activity, and the records of the School provide ample proof of it. One of the most interesting and successful branches of the School of Mines and Industries - if the name be enlarged with the enlargement of its scope - is the Technical Art School. "The City of Statues" has from its earliest days been a stronghold of art. Art schools have flourised here, and in 1905 the Education Department came to the conclusion that the best thing to do with them was to place them under the management of the School of Mines Council. A magnificent new Technical Art School was built at a cost of some 12,000 pounds on the site of the old Supreme Court building, and was formally opened on the 23rd July, 1915. The results have not only been justified but surpassed all anticipations. The most comprehensive list of subjects is taught, and this list is constantly added to. Students have flocked to the art School, which may be said to occupy a unique position in Australia, and its record of success is really astonishing. Its students supply art teachers for the newer schools that are being built, and many occupy leading positinos in important business houses. So well is its reputation known that orders are constantly being received, not only from Victoria, but from other States, for honor boards and challenge shields to be designed and made. The most recent addition to the School of Mines and Industries is the Junior Technical School, for which a new building is now being erected on a portion of the gaol site, transferred to the School of Mines Counci by the Government. At the present moment temporary quarters are being occupied. Some students after passing through the Junior School go straight to employment, continuing perhaps to attend the evening trade classes, while others move on to the senior School. In a review of the work of the School of Mines mention must be made of a series of industrial research carried out under supervision of the Principal. One in particular, regarding the suitability of the local ores for the manufacture of pigments attracted much attention, while the experiemtns on the manufacture of white potery from Victorian clayes were considered of sufficient importance by the Federal Advisory Council of Science and Industry to warrant the appointment of a special investigator. The results of these have been most encouraging, and may have far-reaching consequences. The vocational training of returned soldiers also should not be overlooked. The work was taken in hand from the first, before the Repatriation Department gave assistance, and now with the help of the department of the School has become one of the largest vocational training centres in Victoria outside of Melbourne. The soldiers, trained in a variety of occupations, have made remarkable progress, and already considerable numbers have found employment in local workshops and factories. To sum up, the School is divided into the following departments, each well staffed and equipped: - The School of Mines, science, and Engineering; the Techncial Art School, the Boys' Junior Technical School, the Girl's Preparatory Technical Classes, Trade Classes, and the Commercial School. The school of Mines, science and Engineering, comprises the following branches: - Mining, Metallurgy, Geology, Electrical Engineering, Civil Engineering, Mechanical Engineering, Applied Chemistry, and Pharmacy. Battery treatments, Cyanide Testing, Smelting, Assays, and Clay Testing from a regular part of the School's work. Students gaining qualifications obtain concession in their courses at the university, should they proceed there to continue their studies. The technical Art school curriculum includes training in all branches of pictorial and applied art, an Architectural Diploma Course, a Draughtman's Course, technical Art teachers' Course, Photography,Ticket Writing, Art Metal Work, Woodcarving, Needlework, and Leather work. The Trade Classes give instruction in Telephone Mechanics, telegraphy, Carpentry, Cabinet Making, Plumbing, Blacksmithing, Fitting, Electric Wiring, and Printing. Numerous Scholarships are offered every year, and altogether students will find few places to equal the Ballarat School of Mines and Industries as a training place for their life's work. One of the first in the continent to be established, its Jubilee finds it still in the front rank, keeping pace with the times, and offering to the youths of this country the means of taking advantage of Australia's teeming opportunities. william, battery, smith, herbert, drawing from the antique, ballarat school of mines botanical gardens, ballarat school of mines, redmond barry, alfred mica smith, james bickett, museum, dick richards, ballarat junior technical school, s m b, ballarat school of mines and industries, ballarat technical art school, model mine, james m bickett, j m bickett, roderick murchison, vocational training rooms, wesley church, methodist church, alexander peacock, lathes, repatriation, repatriatin department, war service, school council, baragwanath, gold mining, mining laboratory, plaster cast, r.w. richards, anniversary, jubilee -
Flagstaff Hill Maritime Museum and Village
Instrument - Chronometer or Marine Clock, ca. 1935 to 1975
This chronometer was made around 1936 and has been on display at Flagstaff Hill for over 40 years as part of the exhibit of the ‘Reginald M’, an Australian-built, 19ss, coastal trader vessel. A chronometer is an accurate mechanical instrument used for measuring time. It is constructed carefully to remain stable even under the changing conditions of seafaring life such as temperature, humidity and air pressure. The Master or Navigator of a ship could use the chronometer and the positions of celestial bodies to calculate the ship’s latitude at sea. In 1905 the business Chronometerwerke GmbH was formed in Frankfurt, Germany, to supply the country with high-quality mechanical chronometers and ship clocks for their maritime trade, making the country independent of other international suppliers such as those in England. In 1938 the firm was renamed Wempe Chronometerwerke. The business continues today. Its products now include its well-known chronometers, battery-powered ship clocks, ship’s bell clocks, barometers, barographs, thermometers, hygrometers, comfort meters to measure temperature and humidity, and wristwatches. The company also performs chronometer testing facilities for the State’s Weights and Measures office. The article written by Givi in July 2022 “The Basics of Marine Meteorology – a Guide for Seafarers” refers to the weather’s signs and patterns being repeated over and over, and the recording of these observations helps forecasters predict changes in the weather. The chronometer is an example of a mechanical navigational marine instrument in use in the early to the mid-20th century. The maker is significant as part of a German government initiative to be self-sufficient in the production of good quality marine technology. This chronometer is significant as part of the exhibit, the Australian-built vessel, 1922 coastal trader ‘Reginald M’, listed on the Australian Register of Historic Vessels and on display for over 40 years.Marine chronometer or marine clock, brass case, glass cover, Roman numerals, 24-hour numbers beside them. Two black hands, a keyhole for winding and ventilation holes in the side. The base has a collar with four machined mounting holes. Inscriptions are on the clock’s face."Made in Germany"" and ""WEMPE / CHRONOMETERWERKE / HAMBURG"flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, marine meteorology, horology, chronometer, marine technology, latitude, marine navigation, mechanical instrument, scientific instrument, ship clock, chromometerwerke gmbh, wempe chronometerwerke, marine clock -
4th/19th Prince of Wales's Light Horse Regiment Unit History Room
Book, W A Hamer Pty Ltd, Mechanical Vehicle Training Pam 3 Training of Drivers M.T. 1942, 1942
... , reports, examinations and tests. Mechanical Vehicle Training Pam 3 ...Hard covered book, lace bound. Covers the training of MT drivers including syllabi, principles and practice of instruction, reports, examinations and tests.Not to be publishedtraining vehicle drivers -
Kiewa Valley Historical Society
Meter Ammeter Recorder, Circa 1950
This testing voltmeter recorder was last certified by SEC Vic laboratories on the 17/4/77. It was used extensively as mobile recorder placed for periods of one month at locations experiencing unacceptable fluctuations of power. These locations would cover the North East regions of Victoria. They cover voltage drops at domestic and business properties especially those that were experiencing regular fluctuations(daily) at approximately the same time of the day. As the electrical network is required to operate within a set level of voltage, fluctuations outside of this has to be investigated and necessary remedial action taken. This is especially so for rural properties where power "drainage" can occur through animal/bird and tree interference. It can also be the result of defective wiring and overloading at peek operational times (milking machines).This mobile voltage recorder is very significant to the Kiewa Valley because it highlights the difficulties that can occur in maintaining a power supply that experiences fluctuating power demands by the rural industries that it supplies. The requirement of a mobile testing apparatus to cover the various sections in the Kiewa Valley and other rural areas in the northeast region is one of necessity as electricity once connected to a rural property is a labour saving supply as generators on rural properties require a higher degree of maintenance an ultimately at a higher cost. The testing of the SEC Vic supplied electricity to rural properties,those who had previously run on generators, had to be quick and unassuming with certainty of correct supply levels.The mechanism of this voltage recorder has been installed(by the manufacturer) into its own protective wooden box. This box has a front (swing open) lockable section which permits direct access to the installed measuring equipment (for servicing and data collection). The top section of the box has two screw on terminals for access to the machine being tested. This tester has its own inbuilt ink supply facilities and a mechanical clockwork device that unwinds a roll of paper onto a second roll at a rate of 10 mm per hour. The recording chart is marked with time slots against voltage. There is a recording arm which has an ink pen at the end. Both arm and pen carry the ink supply from the ink reservoir, located on the left side of the cabinet door in specially constructed bottle holder( three small bottle capacity). To record a suspect power problem to a home or business establishment the voltmeter is connected to a power supply outlet being tested and wind the recording clockwork mechanism (gives a four week running time). Before leaving the recorder in situ the electrician checks to see if the chart is recording the correct voltage and that the clock mechanism is advancing correctly.On the front of the access "door" at the top a metal label "RECORDING AMMETER" below this "MURDAY SYSTEM" below this "ALTERNATING CURRENT" and below this the manufacturer's registered number "No. 139156" Below this is a metal tag with State Electricity Commission of Victoria Electrical Engineer's Section equipment number "338" Below these tags and above the viewing window is the manufacturer's dtails "EVERSHED & VIGNOLES Led LONDON"sec vic kiewa hydro scheme, alternate energy supplies, alpine feasibility studies temperature, rainfall, power outages -
Flagstaff Hill Maritime Museum and Village
Equipment - Balance Scale, 1850s
A Large Rare mid 19th Century Balance Scale (also called a Beam Scale) Made in England by W&T Avery a British manufacturer of weighing machines. The company was founded in the early 18th century and took the name W & T Avery in 1818. The undocumented origin of the company goes back to 1730 when James Ford established the business in the town of Digbeth. On Joseph Balden the then company’s owner’s death in 1813 William and Thomas Avery took over his scale making business and in 1818 renamed it W & T Avery. The business rapidly expanded and in 1885 they owned three factories: the Atlas Works in West Bromwich, the Mill Lane Works in Birmingham and the Moat Lane Works in Digbeth. In 1891 the business became a limited company with a board of directors and in 1894 the shares were quoted on the London Stock Exchange. In 1895 the company bought the legendary Soho Foundry in Smethwick, a former steam engine factory owned by James Watt & Co. In 1897 the move was complete and the steam engine business was gradually converted to pure manufacture of weighing machines. The turn of the century was marked by managing director William Hipkins who was determined to broadening the renown of the Avery brand and transforming the business into a specialist manufacture of weighing machines. By 1914 the company occupied an area of 32,000m² and had some 3000 employees. In the inter-war period the growth continued with the addition of specialized shops for cast parts, enamel paints and weighbridge assembly and the product range diversified into counting machines, testing machines, automatic packing machines and petrol pumps. During the second world war the company also produced various types of heavy guns. At that time the site underwent severe damage from parachute mines and incendiary bombs.Then from 1931 to 1973 the company occupied the 18th-century Middlesex Sessions House in Clerkenwell as its headquarters. Changes in weighing machine technology after World War II led to the closure of the foundry, the introduction of electronic weighing with the simultaneous gradual disappearance of purely mechanical devices. The continued expansion was partly achieved through a series of acquisitions of other companies. After almost a century of national and international expansion the company was taken over by GEC in 1979. Keith Hodgkinson, managing director at the time, completed the turn-around from mechanical to electronic weighing with a complete overhaul of the product range of retail scales and industrial platform scales. In 1993 GEC took over the Dutch-based company Berkel and the Avery-Berkel name was introduced. In 2000 the business was in turn acquired by the US-American company Weigh-Tronix, who already owned Salter, and is today operating as Avery Weigh-Tronix. Item made and used possibly around the 1850s by Victorian colonial government to check weights of goods being sold by early shop keepers on the gold fields item is very rare.James McEwan & Co were the retailers of W & T Avery scales in Victoria from 1852. A very rare item used probably to check weights used by merchants during colonial times by government inspectors in Victoria. A similar example exist in a NSW museum, the item is believed to have been made before W & T Avery expansion to the Soho foundry in Birmingham in 1885 and after 1818.Beam balance scale suspended from a wooden tripod, with metal trays suspended by three chain lengths. embossed on the balance beam W T Avery, Birmingham,flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, scale, avery -
Federation University Historical Collection
Booklet, The Ballarat School of Mines and Industries 1870-1920 Jubilee Booklet, 1920 (estimated)
The first school of Mines in Australia was established at Ballarat in 1870. At the time of its jubilee (1930) the following people were members of the School Council: W.H. Middleton (President), W.T. Humphreys (VP), J.S. Vickery (VP), F. Barrow, Col. W.K. Bolton, William Baragwanath, A.E. Cutter, J.N. Dunn, G. Fitches, W.H. Fleay, F. Herman. W.D. Hill, T. Hurley, K. Kean. J. Kelly, L. Lederman, Mayor of Ballarat, Mayour of Ballarat East, D. Maxwell, M. Martin, R. Maddern, D. Ronaldson, F. Saunders, R. Stephenson, A.O. Stubbs, R.E. Tunbridge. The School Staff in 1920 comprised: Herbert H. Smith, Walter Rowbotham, Reginald L. Cutter, M.C. Young, Hilda Wardle, M. Wiliamson, P.S. Richards, L.H. Archibald, J. Woods, Ken Moss, W. Kenneth, Mrs McIlvena. B. Robinson, S. Rowe, E. Hope-Jones, Miss Abrams, L.St.G.P. Austin, Alfred Mica Smith, J.R. Pound, Herbert R. Murphy, N.H. Junner, Maurice Copland, L.H. Archibald, E.J.A. McConnon, Newton King, D.m. Hull, T.R. Gordon, John M. Sutherland, T.K. Jebb, Dick Richards, C. Tonkin, A.W. Steane, J. Paterson, H.W. Malin, R.V. Maddison, S.M. Mayo, F.A. King, W.H. Steane, T.R. Gordon, T.A. Williams, H. Waldron, G. Black, E.J. McConnon, R.V. Duncan. R. Cutter, E.G. Vawdrey, Hilda WardleWhite stapled booklet - landscape format - 20pp + soft covers with blue writing. Includes an historical sketch of the Ballarat School of Mines. Contains images of the school from around 1920. The history outlined in the booklet follows: 'Ballarat has helped to influence the life and destinies of Australia in many ways, the recital of which would perhaps prove tedious to the citizens of less favoured localities! However, it can be said, without much fear of contradiction, that only less known thought Australia than its fame as a gold field is the reputation won for it by its school of Mines, ... Ballarat was still quite a new place when the School was founded, but a very propserous and popular place all the same, with a go-ahead lot of citizens brim full of the spirit of enterprise which seemsto animate mining populations generally. Money was plentiful, and they launched out into ventures, which later, were to develop and take the place of the gold mines, while what is more to the point, they understood the value of education. the old digging days were passing away. So far as Ballarat itself was concerned the day of the cradle and tin dish had already passed into an antiquity "as dead and distant as the age of the Tubal Caon," said dir redmond Barry on declaring the School open. Mining had become a serious business, and the mining engineer, the metallurgist, and the geologist had become a power in the land. In these circumstances the suggestions to found a School of Mines met with ready acceptance. The late Mr James M. Bickett had the honor of bringing forward the proposition at a meeting of the Ballarat Mining Board in October, 1869. it was agreed to, and the Government, having been approached for assistance, granted a lease of the old Supreme Court buildings at a nominal reantal. A modest sum, including 100 pounds from the Borough Council of Ballarat West, was subscribed by a number of sympathisers, and on the 26th October, 1870, the inaugural address was delivered by Sir Redmond Barry, the first President of the School. Classes were commenced on the 23rd January, 1871. The students at first were mostly adults. They were chiefly men emloyed at the mines, who had the wisdom and energy to devote their spare time to study, and, though their attendance was somewhat irregular, they made very good progress. Old prints which have been preserved show them at work at furnaces, big bearded men of the old-fashioned type of miner. It is interesting to note that among those who gave evidence and encouragement was Sir Roderick Murchison, who many years before had advised Cornish miners to emigrate to Australia to search for gold, and who in 1848 was in possession of gold ore sent from this country. Sir Roderick sent a parcel of books for the library, and gave useful advice as to the curriculum which should be adopted. The Museum, which now contains a most valuable collection of minerals, was one of the first things attended to, and the reports presented to the Council from time to time speak of additions being made from all parts of the world. New equipment was constantly being added to the School, a good deal of assay work was done, and some specimens were sent from the East Indies for examination as far back as 1873. By this time there was a difficulty in providing accomodation for the students who wished to enrol, and the number of instructors had grown from two to four. In 1882 the first building was being erected on what was then part of the gaol reserve. A little more than ten years afterwards a buildnig formerly serving as a Methodist Church was absorbed, while later on, the demand for accomodation increasing, the attack upon the gaol was renewed. The School continued to grow in reputation and size, and became the science centre of the district, and in 1889 a learge new building was opened by Sir Alexander Peacock. Students came from over seas as well as from all the States of Australia, and after going through their courses they took with them the name and fame of the old School to all parts of the globe. School of Mines boys have played a great part in developing the mining fields of Western Australia, South Australia, and africa, while old students who have made a name in their profession are constantly dropping in to see how the old place is getting along. It was not to be expected, however, that the Ballarat School would be left without rivals, its very success inspiring competition. Mining Schools were started in other parts of Australia, and, at the same time, Victoria ceased to hold first place as a mining state. On the other hand there was a great advance in manufacturing, and the demand for technicaly trained men became a great and as insistent as ever it had been for trained mining men. The Council was quick to adapt the school to the new conditions, and the result is seen in the institution, which is one of Ballarat's proudest possession. Instruction is given in all branches of technical work, and the classes are filled with students who are building up for Ballarat a reputation as an industrial centre, which promises to equal that which it formerly held as a mining town. Owing to its bracing climate, its abundant opportunities for recreations, and its accessibilty, Ballarat as a city is an ideal place for educational purposed, and is yearly becoming more and more appreciated throughout the State. The chairman of one of Ballarat's biggests industries claims that the workman can do twice the day's work here that he can do in Melbourne. he was a little enthusiastic over it, perhaps, but it is a well-known fact that the healthy and invigourating Ballarat climate is conducive to both physical and mental activity, and the records of the School provide ample proof of it. One of the most interesting and successful branches of the School of Mines and Industries - if the name be enlarged with the enlargement of its scope - is the Technical Art School. "The City of Statues" has from its earliest days been a stronghold of art. Art schools have flourised here, and in 1905 the Education Department came to the conclusion that the best thing to do with them was to place them under the management of the School of Mines Council. A magnificent new Technical Art School was built at a cost of some 12,000 pounds on the site of the old Supreme Court building, and was formally opened on the 23rd July, 1915. The results have not only been justified but surpassed all anticipations. The most comprehensive list of subjects is taught, and this list is constantly added to. Students have flocked to the art School, which may be said to occupy a unique position in Australia, and its record of success is really astonishing. Its students supply art teachers for the newer schools that are being built, and many occupy leading positinos in important business houses. So well is its reputation known that orders are constantly being received, not only from Victoria, but from other States, for honor boards and challenge shields to be designed and made. The most recent addition to the School of Mines and Industries is the Junior Technical School, for which a new building is now being erected on a portion of the gaol site, transferred to the School of Mines Counci by the Government. At the present moment temporary quarters are being occupied. Some students after passing through the Junior School go straight to employment, continuing perhaps to attend the evening trade classes, while others move on to the senior School. In a review of the work of the School of Mines mention must be made of a series of industrial research carried out under supervision of the Principal. One in particular, regarding the suitability of the local ores for the manufacture of pigments attracted much attention, while the experiemtns on the manufacture of white potery from Victorian clayes were considered of sufficient importance by the Federal Advisory Council of Science and Industry to warrant the appointment of a special investigator. The results of these have been most encouraging, and may have far-reaching consequences. The vocational training of returned soldiers also should not be overlooked. The work was taken in hand from the first, before the Repatriation Department gave assistance, and now with the help of the department of the School has become one of the largest vocational training centres in Victoria outside of Melbourne. The soldiers, trained in a variety of occupations, have made remarkable progress, and already considerable numbers have found employment in local workshops and factories. To sum up, the School is divided into the following departments, each well staffed and equipped: - The School of Mines, science, and Engineering; the Techncial Art School, the Boys' Junior Technical School, the Girl's Preparatory Technical Classes, Trade Classes, and the Commercial School. The school of Mines, science and Engineering, comprises the following branches: - Mining, Metallurgy, Geology, Electrical Engineering, Civil Engineering, Mechanical Engineering, Applied Chemistry, and Pharmacy. Battery treatments, Cyanide Testing, Smelting, Assays, and Clay Testing from a regular part of the School's work. Students gaining qualifications obtain concession in their courses at the university, should they proceed there to continue their studies. The technical Art school curriculum includes training in all branches of pictorial and applied art, an Architectural Diploma Course, a Draughtman's Course, technical Art teachers' Course, Photography,Ticket Writing, Art Metal Work, Woodcarving, Needlework, and Leather work. The Trade Classes give instruction in Telephone Mechanics, telegraphy, Carpentry, Cabinet Making, Plumbing, Blacksmithing, Fitting, Electric Wiring, and Printing. Numerous Scholarships are offered every year, and altogether students will find few places to equal the Ballarat School of Mines and Industries as a training place for their life's work. One of the first in the continent to be established, its Jubilee finds it still in the front rank, keeping pace with the times, and offering to the youths of this country the means of taking advantage of Australia's teeming opportunities. william, battery, smith, herbert, drawing from the antique, ballarat school of mines botanical gardens, ballarat school of mines, redmond barry, alfred mica smith, james bickett, museum, dick richards, ballarat junior technical school, s m b, ballarat school of mines and industries, ballarat technical art school, model mine, james m bickett, j m bickett, roderick murchison, vocational training rooms, wesley church, methodist church, alexander peacock, lathes, repatriation, repatriatin department, war service, school council, baragwanath, gold mining, mining laboratory, plaster cast, r.w. richards, anniversary, jubilee -
Federation University Historical Collection
Book, New York Post, The School of Mine Quarterly: A Journal of Applied Science, 1889-1809
The School of Mines Quarterly was a jpournal of Applied Science from Columbia College, New York City.The Index to the School of Mines Quarterlu Volumes X1-XX (1900) and 32 green covered journals school of mines, new york, columbia college, schools of mines, columbia school of mines, witwatersrand goldfield, inter-continental railway, mine ropes, harbor improvememnts on the pacific coast, glycerine and artificial butter industry, transit factors for teh columbia college observatory, tables for the reducation of transit observations, ancienct methods for dividing and recoording time in japan, assay of tin, john strong newberry, standards of linnear measure, comparison of costs of electric lighting, huanchaca mine bolivia, el callao gold mine venezuela, john magnus adams, ores in saxony, hartz and rhenish prussia, hofmann apparatus, adjustment of trangulation, determination of carbonic acid in white lead, lower coals in western clearfield county pennsylvania, old telegraph mine ningham canon utah, mechanical preparation of ores, modern waterworks construction, curdling of milk, french regenerative gas furnace, irrication canals, peruvian salt mine, collection of metallurgic dust and fume, permeability of iron and steel, assay of silver, explosion in a zinc fume condenser, teaching archtectural history, liquid air, between the mine and the smelter, ballistic galvonometer, assay of telluride ores, analytical chemistry, theory and design of the masonry arch, silver pick mine wilson colorado, telegraphy and telephoney, mineralogy, morse code, michigan mining practices, titaniferous magnetites, paradox of the pantheon, rocks from wyoming, witwatersrand goldfields, gaseous sun, alternating current distribution, engineering tests on direct current electrical machinery, thomas egleston, ore dressing, frederick morgan watson, camp bird gold mine and mills, magnetic properties of iron and steel, morphology of organic compounds, antimony, structure of the starch molecule, cerrillos hills new mexico, geology, rossie lead veins, practical electrochemistry, lines of graphic statics, anistic acid by the ozidation of anniseed oil, bromate method for antimony, john krom rees, trust company of america building, helion lamp, frederick arthur goetze, mine surveying, pine wood oils, malleable cast iron, electrolytic treatment of galena, turpentine and pine oils, bluestone, ashokan dam bluestone, road resistances, oxy-gas blowtorch, mine dumps, segregation of steel ingots, masonry dam formulas, putnam county magnetic belts, gases, continuity of education, hydraulic diagrams, standardistion of potassium permanganate, sewerage discharge into sea water, modern waterworks, true column formula, slags from lead furnaces, missouri river, tempreture of gases, rocks, architectural history, modern dome, oil machine, undulations in railway tracks, irrigation engineering, cleps-tachymeters, electrical engineering, new york shales, fan pump, sucrose, isaac newton, french school of anstronomers, electrolytic polarization, benjamin bowden lawrence, diamond drilling, new york ciy water front, engineering profession ethics -
Flagstaff Hill Maritime Museum and Village
Functional object - Standard avoirdupois weights, Avery Ltd, 1950s
A weight made in England by W&T Avery a British manufacturer of weights and weighing machines. The company was founded in the early 18th century and took the name W & T Avery in 1818. The undocumented origin of the company goes back to 1730 when James Ford established the business in the town of Digbeth. On Joseph Balden, the then company’s owner’s death in 1813 William and Thomas Avery took over his scale making business and in 1818 renamed it W & T Avery. The business rapidly expanded and in 1885 they owned three factories: the Atlas Works in West Bromwich, the Mill Lane Works in Birmingham and the Moat Lane Works in Digbeth. In 1891 the business became a limited company with a board of directors and in 1894 the shares were quoted on the London Stock Exchange. In 1895 the company bought the legendary Soho Foundry in Smethwick, a former steam engine factory owned by James Watt & Co. In 1897 the move was complete and the steam engine business was gradually converted to pure manufacture of weighing machines. The turn of the century was marked by managing director William Hipkins who was determined to broadening the renown of the Avery brand and transforming the business into specialist manufacture of weighing machines. By 1914 the company occupied an area of 32,000m² and had some 3000 employees. In the inter-war period, the growth continued with the addition of specialized shops for cast parts, enamel paints and weighbridge assembly and the product range diversified into counting machines, testing machines, automatic packing machines and petrol pumps. During the second world war, the company also produced various types of heavy guns. At that time the site underwent severe damage from parachute mines and incendiary bombs. Then from 1931 to 1973, the company occupied the 18th-century Middlesex Sessions House in Clerkenwell as its headquarters. Changes in weighing machine technology after World War II led to the closure of the foundry, the introduction of electronic weighing with the simultaneous gradual disappearance of purely mechanical devices. The continued expansion was partly achieved through a series of acquisitions of other companies. After almost a century of national and international expansion, the company was taken over by GEC in 1979. Keith Hodgkinson, managing director at the time, completed the turn-around from mechanical to electronic weighing with a complete overhaul of the product range of retail sales of industrial platform scales. In 1993 GEC took over the Dutch-based company Berkel and the Avery-Berkel name was introduced. In 2000 the business was in turn acquired by the US-American company Weigh-Tronix, who already owned Salter, and is today operating as Avery Weigh-Tronix. An item used used by grocers and merchants to weigh store bought goods around the 1950s. This item gives an insight into social history of the time.Weights, metal, silver electroplated, 1 x 2lb, 2 x 4lb, 1 x 7lb. (4) all government stamped, made by Avery Ltd.Noneflagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, weight, imperial weight, imperial standard weights and measures, imperial standard weight -
Flagstaff Hill Maritime Museum and Village
Functional object - Weight Avoirdupois, Avery Ltd, 1940-1950s
A weight made in England by W&T Avery a British manufacturer of weights and weighing machines. The company was founded in the early 18th century and took the name W & T Avery in 1818. The undocumented origin of the company goes back to 1730 when James Ford established the business in the town of Digbeth. On Joseph Balden, the then company’s owner’s death in 1813 William and Thomas Avery took over his scale making business and in 1818 renamed it W & T Avery. The business rapidly expanded and in 1885 they owned three factories: the Atlas Works in West Bromwich, the Mill Lane Works in Birmingham and the Moat Lane Works in Digbeth. In 1891 the business became a limited company with a board of directors and in 1894 the shares were quoted on the London Stock Exchange. In 1895 the company bought the legendary Soho Foundry in Smethwick, a former steam engine factory owned by James Watt & Co. In 1897 the move was complete and the steam engine business was gradually converted to pure manufacture of weighing machines. The turn of the century was marked by managing director William Hipkins who was determined to broadening the renown of the Avery brand and transforming the business into specialist manufacture of weighing machines. By 1914 the company occupied an area of 32,000m² and had some 3000 employees. In the inter-war period, the growth continued with the addition of specialized shops for cast parts, enamel paints and weighbridge assembly and the product range diversified into counting machines, testing machines, automatic packing machines and petrol pumps. During the second world war, the company also produced various types of heavy guns. At that time the site underwent severe damage from parachute mines and incendiary bombs. Then from 1931 to 1973, the company occupied the 18th-century Middlesex Sessions House in Clerkenwell as its headquarters. Changes in weighing machine technology after World War II led to the closure of the foundry, the introduction of electronic weighing with the simultaneous gradual disappearance of purely mechanical devices. The continued expansion was partly achieved through a series of acquisitions of other companies. After almost a century of national and international expansion, the company was taken over by GEC in 1979. Keith Hodgkinson, managing director at the time, completed the turn-around from mechanical to electronic weighing with a complete overhaul of the product range of retail sales of industrial platform scales. In 1993 GEC took over the Dutch-based company Berkel and the Avery-Berkel name was introduced. In 2000 the business was in turn acquired by the US-American company Weigh-Tronix, who already owned Salter, and is today operating as Avery Weigh-Tronix. An item used used by grocers and merchants to weigh store bought goods around the 1950s. This item gives an insight into social history of the time.Weight, brass, Stamped F27, 2lb.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, weight, brass weight -
Federation University Historical Collection
Scientific Instument, Anemometer, 6 Cup Model: Serial No. AM1-6-8875, c1975-1980
An anemometer is intended for determining velocity distribution over an area or in a boundary layer. This item was purchased by Mechanical Engineering upon the request of Dr Len Cubitt, to determine wind speed at various heights above the ground. Investigation related to wind energy harnessing projects, including that undertaken by MARS Industries in Ballarat. The 6-cup anemometer had a marked superiority in tests over the 3-cup anemometer and also had lower starting speeds.Anemometer in a case complete with mounting blocks, but without electric leads for connecting the black finished wood case which also incorporates pulse counters and connections for power supply and for other logging instruments. Serial Number AM1-6-8875 Name Plate on lid between clasps. 'RIMCO" RAUCHFUSS INST & STAFF Pty Ltd 12 Monomeath Drive, Mitcham, Vic. 3132" scientific instrument, anemometer, len cubitt, mechanical engineering, energy harnessing projects, starting speeds -
Federation University Historical Collection
Student's Technical Drawings, Technical Drawing, 1942
ink on paper student's technical drawings .1) 2-speed and reversing electric drive for Olsen Tension Testing Machine .2) Lifting geartechnical drawing, mechanical engineering, p. kempe