Letter headed 1857-1957 Cohns Limited 18th December 1957, Centenary Greetings. Two stapled pages, headed Cohns Limited, Wine and spirit merchants, aerated water, cordial and sauce manufacturers, canned food processors. Wishes their patrons a Happy Christmas and states that, to mark the Centenary of their Company, they are making a donation to the hospitals in their trading area. £1,370 is the total sum. The second page is a list of the hospitals in the Bendigo and Swan Hill area and the exact amount each will receive.bendigo, industry, cohn bros., cohns limited. cohn bros. limited.

Book. ALEC H CHISHOLM COLLECTION. 75 page brown cover hardback describing the wool industry in Australia from growing to the manufacturing process. Prepared by the staff of Goldsborough, Mort & Co. Ltd. A soft cover booklet enclosed in a hardcover. Set up and printed in 1946 by the Victorian Printing Works Pty. Ltd., Melbourne. Inside the front cover, handwritten in green biro ''This is a booklet I edited. The MS was sloppy and the title cumbersome, when it came to me. A. H. Chisholm.'' Pasted on the flyleaf is a typed letter from Goldsborough, Mort and Company to A. H. Chisholm thanking him for revising this publication and attaching a cheque for 50 pounds. Catalogue sticker ''2151 CHI'' on front cover.Goldsborough, Mort and Companybooks, collections, australiana, alec h chisholm collection, goldsborough, mort & company, wool industry

In 1867 Frenchman, Joseph Monier patented reinforced concrete horticultural troughs. In 1873 this process was extended to iron reinforced bridges with the first bridge built in 1875. In Australia, Sir John Monash of Monash and Anderson company, originally built 8 Monier bridges in Bendigo all single arch except Weeroona Ave., which was a double arch. Six of these remain.Black and white photograph. Steam rollers appears to have collapsed from a Monier bridge with men investigating amidst the rubble with one steam roller remaining on the bridge, and another resting in a creek underneath. Photograph by W. H. Robinson. Photograph mounted on cream-coloured card.Written on the front in black ink 'May 1902.'monier bridges, bendigo creek, accidents

Carbon copy of a letter dated 27 June, 1938. Letter is to A. S. Bloomfield, Esq. No name of who it is from. Items mentioned are: What the Scalebuoy Process is, Fields of Application, Installations operating in the State of Victoria, Patents, Gross Margin of Profits, Promotion and Finance, Manufacture and Working Capital.sciences, instruments - general, scalebuoy, bill ashman collection - correspondence, scotts hotel, a s bloomfield esq, nell gwynne gold mine bendigo, crown hotel bendigo, hunters cordial factory, ice works bendigo, victorian railways, bendigo electronic company of (australia) pty ltd, r h s abbott, h a abbott

Cohn Brothers Share Transfer & Acceptance processed by 'The Trustees Executors and agency Company Limited ' on behalf of estate of John Adams dated 30th March 1895. Cohns Co hand stamp. One Penny duty stamp attached.bendigo, industry, cohn bros brewery, john adams.

Eight page brochure printed by Cambridge Press titled Scalebuoys. Sole Australian Distributor Frank A. Stevenson, 62 Honeysuckle Street, Bendigo. Pages have green horizontal lines. Brochure mentions the Scientific Treatise of Scalebuoy Process of Water Treatment by the Creator R. H. S. Abbott, Jnr. Other topics are How Scalebuoys Function, Not a 'Watersoftener', Special Features, First Cost is the Last Cost. Scalebuoy Units are for Domestic Household Tank Unit, Hydraulic-Nozzle Tank Unit and Scalebuoy Tap Unit. Practical Applications of Scalebuoy for Domestic Uses are listed. There is also a Scalebuoy hand Unit, Vest Pocket Unit, Large Hydraulic-Nozzle Tank Unit and a Motorized Tank Unit. There are illustrations of the Units. There are also a list of A Few of the Many Industrial and Processing Applications. On the back page is a Special Note on Medical use of Scalebuoys.sciences, instruments - general, scalebuoy, bill ashman collection, scalebuoys, the scalebuoy company, frank a stevenson, r h s abbott jnr, bendigo electronic coy of australia, cambridge press

Four page carbon copy of a list of shares detailing the shares at £1 each and 5/- each. Mentioned is the countries where the Scalebuoys were used and some of the companies in England, United States, Canada and New Zealand who used them. In Bendigo they could be inspected at the Crown Hotel, Central Nell Gwynne Gold Mine and Hunters Cordial Works. Also mentioned is what Scalebuoys are, What they do, How Scalebuoys Function, Prospects and Sale Purchase Conditions.sciences, instruments-general, scalebuoy, bill ashman collection, victorian scalebuoy company, bendigo electronic process, crown hotel, central nell gwynne gold mine, hunters cordial works, victorian railways, bendigo electronic company

TROVE : The Argus (Melbourne, Vic. : 1848 - 1957) Thursday 14 February 1867 p 1 Article 'THE EXHIBITION. OFFICIAL DISTRIBUTION OF PRIZES. The culminating point in the history of the Intercolonial Exhibition of 1866-7, was reached yesterday, when His Excellency Sir Henry Manners Sutton, Governor of Victoria, publicly received the reports of the jurors, and formally declared their awards. .........................CHEMICAL AND METALLURGICAL PRODUCTS AND PROCESSES....................... MEDALS - VIctoria .............John Kruse, chemist, Melbourne - For his fluid magnesia...........................'. Haines, Gregory, 1994, Á History of Pharmacy in Victoria, The Australian Pharmaceutical Publishing Company in association with the Pharmaceutical Society of Australai (Victoria) Ltd, Melbourne, Australia.opp. page 54, photo of 'John Kruse' and of 'John Kruse's pharmacy, Russell Street, Melbourne, 1866'. TROVE : Melbourne Punch (Vic. : 1855 - 1900) Thursday 21 January 1897 p 3 Article A Musical Genius. BY X. THERE is a chemist's shop in Hawthorn in the drawingroom over which some of the best, music that has ever been heard under the Southern Cross has been discoursed. Here John Kruse, the famous violinist , has delighted his late father with his violin. Here Nellie Mitchell's (Madame Melba's) voice found appreciative admiration long before she became famous. It is the shop of John Kruse, chemist and druggist, the inventor of fluid magnesia, insecticide and a world of well-known articles of daily consumption. The old mail died some time back, but lived long enough to gratify his chief wish, viz,, to see his famous son, Herr Johann Kruse. John journeyed from Germany to see his dying father. His brief but brilliant sojourn amongst us will be remembered by all lovers of music. TROVE: Colac Herald Friday 1 September 1876, page 4, Article. TROVE: The Argus Tuesday 2 July 1867, page 3, Advertisement. 'Felton Grimwade, 125 Russell Street, Melbourne'Clear glass bottle, oval shaped in section with text embossed on both sides and on base. Embossed on base 'M65' over '1923 6' over 'AGM'. Side 1 : 'KRUSES PRIZE MEDAL MAGNESIA' Side 2 : 'THIS BOTTLE IS THE PROPERTY OF FELTON GRIMWADE & CO PTY. LTD. MELBOURNE'. Over the numeral '1'.chemist, magnesia

TROVE : The Argus (Melbourne, Vic. : 1848 - 1957) Thursday 14 February 1867 p 1 Article 'THE EXHIBITION. OFFICIAL DISTRIBUTION OF PRIZES. The culminating point in the history of the Intercolonial Exhibition of 1866-7, was reached yesterday, when His Excellency Sir Henry Manners Sutton, Governor of Victoria, publicly received the reports of the jurors, and formally declared their awards. .........................CHEMICAL AND METALLURGICAL PRODUCTS AND PROCESSES....................... MEDALS - VIctoria .............John Kruse, chemist, Melbourne - For his fluid magnesia...........................'. Haines, Gregory, 1994, Á History of Pharmacy in Victoria, The Australian Pharmaceutical Publishing Company in association with the Pharmaceutical Society of Australai (Victoria) Ltd, Melbourne, Australia.opp. page 54, photo of 'John Kruse' and of 'John Kruse's pharmacy, Russell Street, Melbourne, 1866'. TROVE : Melbourne Punch (Vic. : 1855 - 1900) Thursday 21 January 1897 p 3 Article A Musical Genius. BY X. THERE is a chemist's shop in Hawthorn in the drawingroom over which some of the best, music that has ever been heard under the Southern Cross has been discoursed. Here John Kruse, the famous violinist , has delighted his late father with his violin. Here Nellie Mitchell's (Madame Melba's) voice found appreciative admiration long before she became famous. It is the shop of John Kruse, chemist and druggist, the inventor of fluid magnesia, insecticide and a world of well-known articles of daily consumption. The old mail died some time back, but lived long enough to gratify his chief wish, viz,, to see his famous son, Herr Johann Kruse. John journeyed from Germany to see his dying father. His brief but brilliant sojourn amongst us will be remembered by all lovers of music. TROVE: Colac Herald Friday 1 September 1876, page 4, Article. TROVE: The Argus Tuesday 2 July 1867, page 3, Advertisement. 'Felton Grimwade, 125 Russell Street, Melbourne' Clear glass ellipse in section bottle, with embossed text on both sides and initials and numerals on base.'KRUSES PRIZE MEDAL MAGNESIA', 'This bottle is the property of FELTON GRIMWADE & CO Pty Ltd Melbourne on sides. 'S1935' 'AGM' on base.magnesia, kruse, felton, grimwade, chemist

This calendar of early Melbourne scenes was produced in 1938 to celebrate the 75th anniversary of the founding of the firm in Melbourne. The size, layout and images were a copy of the original calendar produced in 1863. In 1938, the company's premises covered an acre in Bay Street, Port Melbourne and Charles TROEDEL (1835- 1906) called himself 'The Father of Lithography in Australia". Pale yellow calendar with Troedel & Cooper logo and small photograph of Charles Troedel above a short history of the firm.charles troedel, troedel & cooper pty ltd

A green tin with a pictures of trees on the lid. The words 'Autumn Glory' are also written on the lid - 1. Series 1 - 12 'Life in other Lands.' A set of six photographs in each envelope. From pictures painted by E .S. Hardy. The All-British Picture Company Ltd., The Sunday School Union, 57/59 Ludgate Hill. London, E.C.4. 2. One envelope containing beautiful coloured reproductions of the paintings by E. Stuart Hardy. Titled 'Early Saints of History.' A.B. Shaw & Co., Ltd. 3, Creed Lane, Ludgate Hill, London, E.C.4. 3. Four black and white postcard size photographs of the process of making Guinness in a plain envelope.place, tin, lydia chancellor collection, collection, tin, photograph, photo, photos, photographs, guinness manufacturing, history, early saints of history, saints, st. columba, st. patrick, caedmon, st. augustine, st. benedict, st. francis, life in other lands, china, japan, africa, eskimos, inuits, south seas, india, geography, person, people, e. s. hardy, art, artwork, painting, place, societies

Kraft Processed Cheddar Cheese was invented in USA by JK Kraft Cheese Co. A world-wide patent was taken out on the product. In 1926 Kraft (USA) licenced Kraft Walker Cheese Company to produce processed cheddar cheese in Australia. At that time Cyril Callister, the inventor of Vegemite, was working for the Walker Company in Australia. A line drawing of a table setting that includes a block of Kraft Cheesekraft, cheese, callister, j.k. craft cheese co., kraft walker cheese company

Theodore Jesse Hoover, brother of the 31st President of the United States, was born in West Branch, Iowa, on January 28, 1871. He attended Stanford and received the Bachelor of Arts degree in Geology and Mining in 1901. Following graduation his professional career started with the position of assayer for the Keystone Consolidated Mining Company. After one year, he became assistant manager for the Standard Consolidated Mine, and a year later he was promoted to manager of the operation. In 1907 Hoover went to London as general manager of Minerals Separation, Ltd. This company was developing the froth flotation process for recovering minerals from ores. Hoover took an active part in the development of the flotation concentration process and authored one of the first books on the concentration of ores by flotation. After four years with Minerals Separation, Ltd., Hoover entered private practice as a consulting mining and metallurgical engineer with offices in London and in San Francisco. He was very successful and held positions of consulting engineer, managing director, director, and president of many mining companies in America, Europe, Asia, Africa, and Australia. He returned to Stanford in 1919 as Professor of Mining and Metallurgy and Executive Head of the Department of Mining and Metallurgy. His experience and ability in organization made him a natural leader. He was influential in the formation of the School of Engineering at Stanford. The School was formed in 1925 and he was made dean, a position he held until his retirement in 1936. As dean of engineering, he promoted a broad fundamental training program for undergraduate engineering students. Under his guidance, emphasis was placed upon graduate work and he was responsible for developing strong graduate engineering curricula at Stanford. While dean he continued teaching and his course, "The Economics of Mining," developed into a book which was published in 1933. He became interested in the functions of engineers and, with Professor Fish, wrote a book entitled "The Engineering Profession" which was published in 1940 and revised in 1950. In addition to his academic activities he was generous in his hospitality. Faculty and students alike enjoyed the annual field day and barbecue at his Rancho del Oso, near Santa Cruz. He was widely read and had a lively interest in all the things he encountered. He speculated on the antiquity of man and man's early production processes. To verify an idea regarding flint tools, he studied their shapes and became proficient in making arrow heads. He was also interested in wild life, and was one of the founding members of the Cooper Ornithological Society. (http://engineering.stanford.edu/about/bio-hoover)Blue hard covered book of 547 pages including an index. Contents include mine valuation (sampling, ore deposits, ore reserves, financial provisions, sale of mineral product, metal prices, reports) and Mining Organization (Co-operative effort, Mining Companies, Promoting Mining Enterprises, fluctuations of share prices, valuation of mining shares, fakes and fallacies, the mining Engineer and the law) and Mine Management (Organization of staff, mine manager, efficiency, industrial relations, training and discipline, safety).inside cover 'Charles Bacon Mackay School of Mines'.mining, economics, hoover, stanford, mackay school of mines, mackay, bacon

The first commercial digital hearing aid was created in 1987 by the Nicolet Corporation. The hearing aid contained a body-worn processor that had a hardwire connection with an ear mounted transducer. While the Nicolet Corporation’s hearing aid was not publicly successful and the company shortly folded, it was able to start a competition between companies to create more effective hearing aids. Two years later, in 1989, the behind-the-ear (BTE) digital hearing aid was launched. In addition to the Nicolet Corporation, Bell Laboratories expanded upon the hearing aid business by developing a hybrid digital-analog hearing aid. When the hearing aid was put on in the market, it was instantaneously successful. This development helped bring major changes to the world of the hearing aid. The next major milestone was creating an all-digital hearing aid. The Oticon Company developed the first digital hearing aid in 1995, but it was only distributed to audiological research centers for research on digital technology in the realm of acoustic amplification. The Senso was the first commercially successful, all-digital hearing aid, and was created by Widex in 1996. After the success of the Senso, Oticon began marketing their own hearing aid, the DigiFocus. Presently, the digital hearing aid is now become programmable. By making the hearing aid programmable, it has allowed hearing aids to be capable of regulating sound on their own, without using a separate control. The hearing aid can now adjust itself depending on what environment it is in and often does not even need a physical volume control button. These were the first behind the ear hearing aids manufactured by the National Acoustic Laboraties (NAL) in Australia Body worn hearing aid consisting of separate pieces, one for each ear with attached ear mould, for one ear, in original box. Provided and manufactured by the NAL (National Acoustic Laboratories), part of the Commonwealth Department of Health. "NAL" in centre of stylised map of Australia. "COMMONWEALTH/DEPARTMENT OF HEALTH" on inside of box. "IV" and "F.McD/RIGHT" manually etched on hearing aid. "II" manually etched on other hearing aid. "CAL AID H" inscribed on inside edge of hearing aid.

The first commercial digital hearing aid was created in 1987 by the Nicolet Corporation. The hearing aid contained a body-worn processor that had a hardwire connection with an ear mounted transducer. While the Nicolet Corporation’s hearing aid was not publicly successful and the company shortly folded, it was able to start a competition between companies to create more effective hearing aids. Two years later, in 1989, the behind-the-ear (BTE) digital hearing aid was launched. In addition to the Nicolet Corporation, Bell Laboratories expanded upon the hearing aid business by developing a hybrid digital-analog hearing aid. When the hearing aid was put on in the market, it was instantaneously successful. This development helped bring major changes to the world of the hearing aid. The next major milestone was creating an all-digital hearing aid. The Oticon Company developed the first digital hearing aid in 1995, but it was only distributed to audiological research centers for research on digital technology in the realm of acoustic amplification. The Senso was the first commercially successful, all-digital hearing aid, and was created by Widex in 1996. After the success of the Senso, Oticon began marketing their own hearing aid, the DigiFocus. Presently, the digital hearing aid is now become programmable. By making the hearing aid programmable, it has allowed hearing aids to be capable of regulating sound on their own, without using a separate control. The hearing aid can now adjust itself depending on what environment it is in and often does not even need a physical volume control button. Single Behind-the-ear hearing aid with ear mould. "BOSCH/GERMANY" on the side bottom of aid, "7327476" on face, "46AYG-D" on inside edge

The first commercial digital hearing aid was created in 1987 by the Nicolet Corporation. The hearing aid contained a body-worn processor that had a hardwire connection with an ear mounted transducer. While the Nicolet Corporation’s hearing aid was not publicly successful and the company shortly folded, it was able to start a competition between companies to create more effective hearing aids. Two years later, in 1989, the behind-the-ear (BTE) digital hearing aid was launched. In addition to the Nicolet Corporation, Bell Laboratories expanded upon the hearing aid business by developing a hybrid digital-analog hearing aid. When the hearing aid was put on in the market, it was instantaneously successful. This development helped bring major changes to the world of the hearing aid. The next major milestone was creating an all-digital hearing aid. The Oticon Company developed the first digital hearing aid in 1995, but it was only distributed to audiological research centers for research on digital technology in the realm of acoustic amplification. The Senso was the first commercially successful, all-digital hearing aid, and was created by Widex in 1996. After the success of the Senso, Oticon began marketing their own hearing aid, the DigiFocus. Presently, the digital hearing aid is now become programmable. By making the hearing aid programmable, it has allowed hearing aids to be capable of regulating sound on their own, without using a separate control. The hearing aid can now adjust itself depending on what environment it is in and often does not even need a physical volume control button.These were the first behind the ear hearing aids manufactured by the National Acoustic Laboraties (NAL) in Australia Single behind-the-ear hearing aid.

The first commercial digital hearing aid was created in 1987 by the Nicolet Corporation. The hearing aid contained a body-worn processor that had a hardwire connection with an ear mounted transducer. While the Nicolet Corporation’s hearing aid was not publicly successful and the company shortly folded, it was able to start a competition between companies to create more effective hearing aids. Two years later, in 1989, the behind-the-ear (BTE) digital hearing aid was launched. In addition to the Nicolet Corporation, Bell Laboratories expanded upon the hearing aid business by developing a hybrid digital-analog hearing aid. When the hearing aid was put on in the market, it was instantaneously successful. This development helped bring major changes to the world of the hearing aid. The next major milestone was creating an all-digital hearing aid. The Oticon Company developed the first digital hearing aid in 1995, but it was only distributed to audiological research centers for research on digital technology in the realm of acoustic amplification. The Senso was the first commercially successful, all-digital hearing aid, and was created by Widex in 1996. After the success of the Senso, Oticon began marketing their own hearing aid, the DigiFocus. Presently, the digital hearing aid is now become programmable. By making the hearing aid programmable, it has allowed hearing aids to be capable of regulating sound on their own, without using a separate control. The hearing aid can now adjust itself depending on what environment it is in and often does not even need a physical volume control button. Silver metal case with side clips and hearing aid attached. Has battery compartment for AA batteries. Volume control is the top left hand corner. "C OF A/CALAID/36778" on back of case deaf children australia, hearing aid, calaid

The first commercial digital hearing aid was created in 1987 by the Nicolet Corporation. The hearing aid contained a body-worn processor that had a hardwire connection with an ear mounted transducer. While the Nicolet Corporation’s hearing aid was not publicly successful and the company shortly folded, it was able to start a competition between companies to create more effective hearing aids. Two years later, in 1989, the behind-the-ear (BTE) digital hearing aid was launched. In addition to the Nicolet Corporation, Bell Laboratories expanded upon the hearing aid business by developing a hybrid digital-analog hearing aid. When the hearing aid was put on in the market, it was instantaneously successful. This development helped bring major changes to the world of the hearing aid. The next major milestone was creating an all-digital hearing aid. The Oticon Company developed the first digital hearing aid in 1995, but it was only distributed to audiological research centers for research on digital technology in the realm of acoustic amplification. The Senso was the first commercially successful, all-digital hearing aid, and was created by Widex in 1996. After the success of the Senso, Oticon began marketing their own hearing aid, the DigiFocus. Presently, the digital hearing aid is now become programmable. By making the hearing aid programmable, it has allowed hearing aids to be capable of regulating sound on their own, without using a separate control. The hearing aid can now adjust itself depending on what environment it is in and often does not even need a physical volume control button. Silver metal case with side clips and hearing aid attached. Has battery compartment for AA batteries. Volume control is the top left hand corner. Comes with its black case "C OF A/CALAID/101862" on back of case. "ANGUS & COOTE/Acoustics/HEARING AIDS" on inside cover of case

The first commercial digital hearing aid was created in 1987 by the Nicolet Corporation. The hearing aid contained a body-worn processor that had a hardwire connection with an ear mounted transducer. While the Nicolet Corporation’s hearing aid was not publicly successful and the company shortly folded, it was able to start a competition between companies to create more effective hearing aids. Two years later, in 1989, the behind-the-ear (BTE) digital hearing aid was launched. In addition to the Nicolet Corporation, Bell Laboratories expanded upon the hearing aid business by developing a hybrid digital-analog hearing aid. When the hearing aid was put on in the market, it was instantaneously successful. This development helped bring major changes to the world of the hearing aid. The next major milestone was creating an all-digital hearing aid. The Oticon Company developed the first digital hearing aid in 1995, but it was only distributed to audiological research centers for research on digital technology in the realm of acoustic amplification. The Senso was the first commercially successful, all-digital hearing aid, and was created by Widex in 1996. After the success of the Senso, Oticon began marketing their own hearing aid, the DigiFocus. Presently, the digital hearing aid is now become programmable. By making the hearing aid programmable, it has allowed hearing aids to be capable of regulating sound on their own, without using a separate control. The hearing aid can now adjust itself depending on what environment it is in and often does not even need a physical volume control button. Square, silver metal hearing aid with electronics and AA battery compartments. Has an ear piece and ear mould attached by wire, with a volume adjustment. A body level type, probably a CALAID T manufacture from 1955 to the 70's. On front "C OF A/CALAID/108499" deaf children australia, hearing aid, calaid, commonwealth of australia

60lbs rail that was used throughout the Victorian rail network. In 1887 Gibbs, Bright and Co. had a contract with Victorian Railways for railway and canal construction and supply of Krupp Rails. Gibbs, Bright and Co were merchant bankers and shipping agents and merchants who where also Directors of the GWR ( Great Western Railway ) and the Ship The "Great Britain" in England Gibbs, Bright and Company had principally been involved in shipping and trading, mainly in the West Indies, but following the discovery of gold in Victoria they established an office in Melbourne and soon became one of the leading shipping agents and merchants in the Colony. They expanded into passenger shipping and soon established offices in Brisbane, Sydney, Newcastle, Adelaide and Perth as well as launching passenger services between England, Mauritius and New Zealand. Gibbs, Bright also held a number of financial agencies from British mortgage, finance and investment companies as well as representing several British insurance companies in Australia. In addition they conducted a growing import business as well as an export business that included livestock, dairy produce, wool and flour. Also the company played a substantial part in the development of Australia's mineral resources, starting with lead in 1895, and later venturing into tin, gold, copper, cement and super phosphates. In Australia, after WWI, many of the larger companies were managing their own import and export so Gibbs, Bright and Company tended to focus its Agency business on smaller companies while expanding their interest into other markets such as timber, wire netting, zinc, stevedoring, road transport, marine salvage, gold mining as well as mechanical, structural, electrical and marine engineering. The Company's shipping interests continued to grow as well and still formed a major part of its business. In 1948 the parent company in England took the major step from tradition when they changed the business from a partnership into a private limited company. The name was the same, Antony Gibbs and Sons Limited, and in practice the effect of the change was very little. Some of the firm's branches and departments had already become limited companies and the formation of a parent company simplified the structure. The Australian operation was in time changed to Gibbs Bright & Co Pty Ltd in 1963. In 1848 Alfred Krupp becomes the sole proprietor of the company which from 1850 experiences its first major growth surge. In 1849 his equally talented brother Hermann (1814 - 1879) takes over the hardware factory Metallwarenfabrik in Berndorf near Vienna, which Krupp had established together with Alexander Schöller six years earlier. The factory manufactures cutlery in a rolling process developed by the brothers. Krupp's main products are machinery and machine components made of high-quality cast steel, especially equipment for the railroads, most notably the seamless wheel tire, and from 1859 to an increased extent artillery. To secure raw materials and feedstock for his production, Krupp acquires ore deposits, coal mines and iron works. On Alfred Krupp's death in 1887 the company employs 20,200 people. His great business success is based on the quality of the products, systematic measures to secure sales, the use of new cost-effective steel-making techniques, good organization within the company, and the cultivation of a loyal and highly qualified workforce among other things through an extensive company welfare system. From 1878 August Thyssen starts to get involved in processing the products manufactured by Thyssen & Co., including the fabrication of pipes for gas lines. In 1882 he starts rolling sheet at Styrum, for which two years later he sets up a galvanizing shop. The foundation stone for Maschinenfabrik Thyssen & Co. is laid in 1883 with the purchase of a neighboring mechanical engineering company. In 1891 August Thyssen takes the first step toward creating a vertical company at the Gewerkschaft Deutscher Kaiser coal mine in [Duisburg-]Hamborn, which he expands to an integrated iron and steelmaking plant on the River Rhine. Just before the First World War he starts to expand his group internationally (Netherlands, UK, France, Russia, Mediterranean region, Argentina). info from The company thyssenkrupp - History https://www.thyssenkrupp.com/en/company/history/the-founding-families/alfred-krupp.htmlHistoric - Victorian Railways - Track Rail - made by Krupp in 1888Section of VR Krupp 1888 Rail mounted on a piece of varnished wood. Rail made of ironpuffing billy, krupp, rail, victorian railways

Greenbat Battery Loco Built by Greenwood & Batley Ltd Builders No. 420363/2 This Greenbat Battery Loco has been loaned to the Museum by the Walhalla Goldfields Railway, who had acquired it in 2013 along with a large quantity of narrow gauge trollies and light rail from Orica’s now closed munitions factory in Melbourne’s western suburbs. The trolley on display was one of two in use from the 1970s. Orica - Deer Park Munitions factory Orica Deer Park in Melbourne’s west has been used since circa 1875 for various forms of manufacturing and storage of chemicals. Although the site is bounded by Ballarat Road, Station Street, Tilburn Road and the Western Ring Road, the current entry point for industrial operations is situated at Gate 6 off Tilburn Road. Operations include: • a specialty chemicals facility producing products for mining services operations • quarry services • other chemical manufacture activities. The Deer Park factory complex is of historical significance as the location of the first plant for the manufacture of high explosives in Australia and has been, for its entire history, the most important, if not only, commercial manufacturer of high explosives in Australia. It commenced operation under the importer Jones Scott and Co, and then the Australian Lithofracteur Company (Krebs Patent), a rival to Nobel's dynamite patent. The factory was producing nitro-glycerine based explosives in Australia only a couple of years after Nobel's Ardeer factory began operating in Scotland. The explosives factories complex is of historical significance for the association with the Australian Lithofracteur Company, Australian Explosives and Chemicals, the Nobel company and later ICIANZ, which grew to become one of the largest explosives, chemical and plastics manufacturers in Australia. It was the pioneer of the industry and retained its dominance through monopolistic practices, taking over most of its competitors in the Australasian region. Substantial parts of the pre-Second World War layout of the site remain which, with a number of significant buildings dating back to the 1920s and '30s, indicate past and present processes of manufacturing, the necessary safety measures required and the integrated nature of the explosives and chemical industry. The narrow gauge tramway, which ran through the explosives section, was a rare survivor of nineteenth century materials-handling methods into the 21st Century. Greenwood & Batley were a large engineering manufacturer with a wide range of products, including armaments, electrical engineering, and printing and milling machinery. They also produced a range of battery-electric railway locomotives under the brand name Greenbat. The works was in Armley, Leeds, UK. Greenbat was the trade name for the railway locomotives built by Greenwood & Batley. The company specialised in electric locomotives, particularly battery-powered types for use in mines and other hazardous environments. Historic - Industrial Narrow Gauge Railway - Battery Locomotive - Orica - Deer Park Munitions factory - Deep park, Victoria, Australia Battery Locomotive - made of iron puffing billy, greenbat battery loco, battery locomotive, industrial narrow gauge railway, orica - deer park munitions factory

Image of Cocks Pioneer Gold & Tin Mines NL directors with Mrs Molly Moline and children, Dorothy and Geoff. Taken at Sherwood - the mine manager's residence. (1914) Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25 000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. "COX PIONEER MINE DIRECTORS" top "GEOFF DOR (unclear) TED SHACKLE" bottommine, gold, tin, gold mining, tin mining, cockatoos, sluicing, men, women, children, cocks pioneer, el dorado, eldorado

Altering course of Reedy Creek, El Dorado. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25 000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. Handwritten across the front: 'Altering course of creek. Eldorado'mining, gold, tin, sluicing, reedy creek, cocks pioneer, el dorado, eldorado, men, horses

Horse team , Cocks Pioneer Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17 284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. mining, gold, tin, sluicing, men, cocks pioneer, el dorado, eldorado, horses, gold mining, tin mining

Cocks Pioneer Mine El Dorado, Power Station No. 2 was established in 1914 and located near junction of Reid's and Clear Creeks, Byawatha. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. Handwritten on front: 'THE POWER STN COCKS, PIONEER MINE, ELDORADO' / 'THELMA STUDIO / [underlined] WANGARATTA'mining, gold, tin, cocks pioneer, power, sluicing, el dorado, eldorado, byawatha, thelma studios, wangaratta, gold mining, tin mining, reid's creek, clear creek

Cocks Pioneer Creek Diversion. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. mining, gold, tin, cocks pioneer, creek, gold mining, tin mining, el dorado, eldorado

Men at Work on the Tail Race, Cocks Pioneer Mine, El Dorado. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64,397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. Handwritten across the front: 'Cocks Pioneer Mine Eldorado MEN AT WORK ON THE TAIL RACE' / 'THELMA STUDIO / [underlined] WANGARATTA.mining, gold, tin, gold mining, tin mining, cocks pioneer, men, thelma studios, wangaratta, el dorado, eldorado

Cocks Pioneer Pipes and Open Cut. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64 397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. mining, gold, tin, open cut, sluicing, gold mining, tin mining, cocks pioneer, el dorado, eldorado

Cocks Pioneer New Engines, c. 1934. Cocks Pioneer Electric Gold & Tin Mine Company was formed in 1899. The company's first power station, located at the eastern end of the valley began operating with its 340 Kilowatt steam-powered generator. By 1909, from 2,500,000 cubic yards worked, reported recovery was 17,284 ounces of gold and 224 tons of tin ore. By 1909, Cocks Pioneer’s power plant had become inadequate and uneconomical. The barge was floated downstream about a mile, but lost time caused the operations to cease. Following testing, a new mine was established by diverting Reid's Creek at a cost of £25,000. Settling dams were built, one of which held 1,935,900 cubic feet. Sold earth banks, built against a wall of stringy bark saplings constructed and laced with vertical props, were built. In 1914, the company was reformed as Cock’s Pioneer Gold and Tin Mines NL, another power station was constructed at the western end of the township, near the junction of Clear and Reid's Creeks. From 6,800,000 cubic yards of material processed, the returns were 64 397 ounces of gold and 855 ton of tin. Cocks Pioneer mine then moved the barge downs stream and continued sluicing. In 1929 Cocks Pioneer Electric Gold and Tin Mining Company ceased operations due to a drop in values. Cock’s Pioneer Gold and Tin Mines NL carried on large-scale hydraulic sluicing operations until 1941. mining, gold, tin, engine, electricity, gold mining, tin mining, cocks pioneer, el dorado, eldorado