Showing 97 items
matching iron ores
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Federation University Historical Collection
Book, The Mineral Industry its Statistics, Technology and Trade during 1929, 1930
... silver + alumite antinomy cobalt coke copper ore iron lead ...This volume includes Australasia, and lists each state seperately , as well as New Zealand, It also lists Bismoth, Chome iron ore, coal, copper, gold, lead, mineral industry growth, alumite, antinomy, cobalt, coke, copper ore, gold, iron, lead, limestone flux, managanese, shale, silver, silver-lead, tin and zincRed hard cloth covered book of 845 pages. Includes contents and index.non-fictionThis volume includes Australasia, and lists each state seperately , as well as New Zealand, It also lists Bismoth, Chome iron ore, coal, copper, gold, lead, mineral industry growth, alumite, antinomy, cobalt, coke, copper ore, gold, iron, lead, limestone flux, managanese, shale, silver, silver-lead, tin and zinc mining, statistics, technology, trades, metal industry, minerals, united states, canada, china, france, germany, italy, japan, russia, south america, spain, sweden, united kingdom, ireland, coins, cuba, blast furnaces, gold, lead production, manganese, opals, silver, +, alumite, antinomy, cobalt, coke, copper ore, iron, lead, limestone flux, managanese, shale, silver-lead, tin, zinc, abrasives, chemical industry, gems, precious stones, dividends, akalies, salt, earthernware, glass, petroleum, aluminium, bismuth, tungsten -
Federation University Historical Collection
Book, Machinery for Metalliferous Mines, 1894
The 1st edition of this famous work, giving an excellent account of the machinery used in late 19th century metal mining in the UK and overseas is very rare. It covers a wide range of equipment - pumps, steam engines, drills, winding engines, stamps & concentration mills, aerial ropeways, tramways and early uses of electricity etc. Brown hard cloth covered book. xvi 564 pages with additional advertisements, with over 300 illustrations and drawings, some fold out. Chapters include Water as a motive power, Wind engines and ventilating machinery, Steam boilers/engines and oil engines, hoisting machinery, draining of Mines, pumping engines, rock drilling machinery, boring machinery, concentration machinery, sizing and classifications trommels, joggers and jigging, fine concentration, milling of gold ores, milling of silver ores, amalgamation plates and machinery, dry and roasting machinery, chlorination and cyandide processes for the extraction of gold, electricity as a motive power for mining, electric lighting and blasting, aerial wire ropeways, transport by rail and road. There a a number of lovely line illustrations in the book including: Poncelot's undershot waterwheel; Fromont furnace;Victor turbine; Pelton waterwheel; Root's positive blower;Cross section and front elevation of Lancashire boiler; Robey's Compound Mill Engine; Portable Winding Plant; Iron Pit Head Gear ; Loading Arrangement in an Incline Shaft; kibble; Worthington Pump; California Pump; Scram's Air Compressor; Rock drill Bits; Special Sharpening tools; Boring tools;Rotating Picking table; Ore Feeder; roller crusher; stamp battery; round buddle; slime table; vanner; amalgamating plant; belt elevator;roasting furnace;splicing wire rope; capel; tipping waggon;mining, cornish pump, linkenbach table, water wheel, ventilation, oil engine, california, america, water, steam boilers, steam engines, oil engines, pumpimg, rock drilling, boring, jiggers, milling, silver, gold, drying and roasting, chlorination, cyaniding, lead, zinc, copper, electricity, electric lighting, wire ropes, transport, wind engine, poppet head -
Federation University Historical Collection
Book, Ballarat School of Mines Students' Magazine, 1902-1906
The Ballarat School of Mines is a predecessor institution of Federation University Ausgtralia.Five copies of the Ballarat School of Mines Students' Magazine bound in a blue hard cover and quart bound in calf. 1902 - Retirement of Herbert L. Krause 1905 - Mt Lyall Ore Deposits Images: Ballarat School of Mines Sports Association Committee and Officers, 1905 Standing left to right: W. Pearce, T. Williams, S. Hepburn, Seward, W. Figgis, J.R. Reid, P. Elliott Sitting left to right: P.A. Pratt, N. Buley, John Sutherland, H.R Murphy, J. Inglis, R. Nevett 1906 Excursion to Broken Hill, The Artistic Printing Process, Hints on Portraiture, Arizona, Cornish Mining Images Ballarat School of Mines and AusImm at the Central Mine, Broken Hill; At Iron Knob, Brown Boveri Turbo Generator at Block 10, Junction Mine plant or Potter Process, Broken Hill Propriety Mill, Carlyon's Hotel, Sam Jamieson, Electrical Labortory, Ballarat School of Mines Rowing Eight, Sports Committee,ballarat school of mines, magazines, sports committee, thomas williams, mount lyell, w. pearce, t. williams, s. hepburn, seward, w. figgis, j.r. reid, p. elliott, p.a. pratt, n. buley, john sutherland, h.r murphy, j. inglis, r. nevett, herbert l. krause, broken hill, artistic printing process, hints on portraiture, arizona, cornish mining, ausimm at the central mine, broken hill, iron knob, brown boveri turbo generator at block 10, junction mine plant or potter process, broken hill propriety mill, carlyon's hotel, sam jamieson, electrical labortory, ballarat school of mines rowing eight, sports committee,, rowing on lake wendouree, boat shed, h. valentine, l. seward, c. macgennis, d. don, m. gaunt, h. owne, l. nott, s. leathes, j.a. reid, h.r. murphy, alfred mica smith, r. hosking, zeehan, moonta, wallaroo, smelting silver, south africa, south australia excursion, sunnyside woollen mills, tasmanian excursion, swedish iron, mt jukes excurson, western australian gold ore, wynne-grant furnace, bhp sintering slimes, leggo furnace, mine ventilation, mount morgan mine, mount pani ltd, new zealand coal, adelaide school of mines, students' association, at iron knob, ausimm, excursions, visits, south australian excursion -
Federation University Historical Collection
Book, Principles of Metallurgy, 1901
Maroon hard covered book of 388 pages. The book was written for the budding metallurgist, constituting an elementary treatise on the subject, dealing with principles rather than processes, the contents include: Intro., Definition, Properties, Principles, Alloys, Slags, Fuel, Iron, Steel, Silver-Gold-Platinum, Copper-Zinc, Lead-Tin, Nickel-Cobalt, Aluminium, Mercury, Antimony-Arsenic, Bismuth, Index.metallurgy, brook, hiorns, pig iron, steel, silver, acid, stamp battery, ores, zinc, copper, antimony -
Federation University Historical Collection
Book, Guide for Prospectors in Victoria, 1931
The handbook was intended for those with little experience who wanted to prospect of fossick.Grey soft covered book of 90 pages. Includes fold out map of a portion of Victoria showing auriferous areas and mineral localities. Also show Counties of Victoria and localities of minerals such as tin, antimony, copper, silver lead, Malybdenite, tungsten ores, manganese, platinum, osmiridium and iron. Chapter heading s include: working alluvial deposits, equipment, geology of Victoria, gold deposits, quartz reefs, indicators, economic minerals, assistance to prospectors, Miners' Right, mining bye-law, mining leases, forest regulations and glossary. Descriptions are given of a god dish, puddling tub, cradle, puddling machine, ground sluicing, boring, windlass, whim, hand dollying, sweeping, California pump, and wing dam.mining, baragwanath, gold, prospector, geology, quartz reefs, alluvial deposits, indicators, victorian goldfields, miners rights, mining leases, forest regulations, sluicing, sluice box, puddling machine, miner's cradle, whim, whip, california pump, gold nuggets, saddle reef, ballarat indicators, state batteries -
Federation University Historical Collection
Photograph, Ballarat School of Mines Library Plaques, c1970s and 1980s
The Ballarat School of Mines is a predecessor organisation of Federation University Australia.Black and white photographThis building was officially opened on 4th July, 1978 by E.J.T. Tippett, M.B.E. in whose honour the library was named thus commemorating dedicated service since 1934 as a member of the Council of the School of Mines and Industries Ballarat Stamp Battery The stamp battery for treating gold ores was first intriduced in California. A heavy iron stamp is raised on a cam and let fall so that its weight causes the quartz which is held in the mortar box. This three head battery was installed in the mining laboratory of The School of Mines, Ballarat in 1898 and crused many hundreds of tons of quartz. It was reected on this site to commeorate the centenary of the School of Mines in 1870. School of Mines & Industries Ballarat Established - 1870 Stage one of The Vocational Skills Centre was officially opened by The Hon. Robert Fordham M.P. Minister of Education on 29th April 1983 P.R. Shiells K.J. Flecknoe Principal President The School of Mines and Industries Ballarat Established - 1870 This plaque commemorates the opening of the Hairdressing School on 9 March 1983 by Peter Cutter, B. Comms, M. Ed. General Manager - Programs, TAFE Board School of Mines and Industries Ballarat Ltd Land Laboratory officially opened by Dr D.F. Smith Director of Agriculture on 12th November 1980. School of Mines & Industries Ballarat Amenities Building was officially opened by His excellency The Hon. Sir Henry Winneke K.C.M.G., K.C.V.O., O.B.E.. K. St. J., O.C., Governor of Victoria on 7th October 1981 G.H. Beanland K.J. Beanland Principal President This room is known as the Yates Geological Centre in recognition of a professional lifetime of service from 1920=1962 as' head of Geology in The SChool of Mines and Industries Ballarat by Harold Yates M.Sc Plaque presented by former students This stone was laid by The Hon. Alexr J. Peacock Minister of Public Instruction April 14th 1899 Abdrew Anderson, Presidentbuildings, ballarat school of mines, smb campus, premier of victoria, plaque, e.j.t. tippett library, tippett learning research centre, smb library, ballarat school of mines library, e.j. tippett, smb foundation stone, smb stamp battery plaque, geology centre - yates, yates geological centre, smb amenities building opening, smb land laborarory opening, smb hairdressing school opening, smb vocational centre (stage 1) opening, smb e.j. tippett library opening, former ballarat gaol national trust plaque, former ballarat supreme court national trust plaque, smb buildings - administration national trust plaque, foundation of technical education in australia, ballarat school of mines foundation stone, yates geology centre, amenities building, land laboratory, former ballarat gaol, former ballarat supreme court, courthouse theatre, stamp battery, stamper battery, centenary, anniversary, mortar box, peter shiells, ken flecknoe, vocatonal skills centre, haidressing school, peter cutter, museum building, former wesley church, henry winneke, graham beanland, harold yates, alexander peacock, andrew anderson, a building, administration building -
Federation University Historical Collection
Magazine, Ballarat School of Mines Students' Magazine, Vol. 8, No. 2., Second Term, 1905
Grey soft covered magazine on 18 pages. Contents include: Wet Lead Assay, Swedish Iron, Cambridge Life, Arizona Mining Camp (photograph) , Adelaide School of Mines, Blast Furnace, Cupellation and Parting.ballarat school of mines, ballarat school of mines students' magazine, david ham, swedish iron, blast furnace, refining, commercial wet lead-assay, daniel walker, woolfram ores, mounty lyell ore deposits, cambrisge university, arizona copper mining camp, g.j. dawbarn, arizona, new mexico, clifton, adelaide school of mines, j.a. haslam, biggest blast furnace in the world, o.e. jager, anaconda copper mining co., cupellation, j.m. baldwin, kerr grant, w.j. lakeland, e.m. weston, r. lamb, h.b. cooke, p. mathews, g.s. hart, john rahilly, martin h. bade, hugo eklund, cupulation -
Federation University Historical Collection
Book, D.C. Davies et al, Metalliferous Minerals and Mining, 1892
Brown hard covered, illustrated book of 518 pages. It includes a bookplate of the Ballarat Ironworkers' and Polytechnical Association Library Rules. The book was bequethed to the Ironworkers' Association by the late James Oddie.mining, minerals, quartz, nova scotia, california, germany, ural mountains, gold deposits, virginia, new england, new brunswick, brazil, australia, new south wales, mount morgan, new zealand, africa, statistics, india, phillipines, aruba island, silver, russia, nevada, ruby hill, nevada, utah, emma mine, nevada, colarado, red mountain district, colorado, yankee girl mine, arizona, mexico, peru, bolivia, chili\copper, south africa, italy, austria, norway, swedan, france, cornwall, dolcoath mine, sandstone, parys mines of anglesea, carnarvonshire, cardiganshire, wicklow, ireland, mississippi valley, wisconsin, lake superior, wyoming, cuba, jamaica, venezuela, south australia, york peninsula, flinders ranges, japan, tin, banca, malaysia, bohemia, saxony, sweden, spain, cligga point, rin lodes of cornwall, andalusia, belgium, shropshire, isle of man, durham, westmoreland, limestone, flintshire, dengigshire, canada, lead, zinc, siberia, hungary, silesia, sardinia, algeria, ireland, new jersey, iron, lancashire, missouri, michigan, superstitions, equipment, cages, stopes, winzes, timbering, ventilation, fans, drilling, boring, dynamite, electricity, blasting, horse whims, water wheels, boilers, petterson's elephant ore stamp, stamper battery, jogs, linkenbach table, panning, cradle, quartz mining, hydraulic mining, alluvia; mining, altai mountains, north wales, neugluck mine, freiberg, christbescherung mine, drei prinzen lode, miask, woodville, virginia, gongo soco, brazil, sierra nevada, california, st john del rey mine, brazil, leydenberg gold field, south africa, banket reefs, transvaal, kongsberg, norway, santa rosa mine, peru, huelva, spain, dolcoath mine, cornwall, parys mine, anglesea, waterbury copper mine, lake superior, copiapo, chilli, altenberg, saxony, whea; uny, cornwall, wast wheel mine. redruth, cornwall, cligga point, cornwall, old hewas mine, cornwall, hartz, germany, snailbeach mine, shropshire, llangynog, north wales, van mine, mongomeryshire -
The Beechworth Burke Museum
Geological specimen - Ilvaite
Ilvaite has acquired its name from Ilva (Latin for Elba) Island, Greece, where Ilvaite is most commonly found. The geological setting in which Ilvaite occurs is through contact with magnetite, zinc and copper ore deposits, along with contact metamorphic deposits and zeolite zones. llvaite crystallizes in the form of black prismatic crystals and columns . This specimen was retrieved from Broken hill, known as the world's richest and largest zinc-lead ore deposit. Because of Ilvaite's often unaesthetic crystal formations compared to other minerals, Ilvaite is uncommon in most rock collections, particularly specimens that are not well formed, such as this one. Ilvaite is also a member of the Sorosilicate subclass of the silicate minerals, which have an unusual basic unit of Si2O7, making Ilvaite a unique mineral. Given that Ilvaite is not commonly found in Australia, it marks a unique contribution to an Australian collection of minerals. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid hand-sized ferrous iron analogue mineral with of black with shades of beige Ilvaite is a brittle, opaque rock formation that has acquired its name from Ilva (Latin for Elba) Island, Greece, where Ilvaite is most commonly found. The geological setting in which Ilvaite occurs is through contact with magnetite, zinc and copper ore deposits, along with contact metamorphic deposits and zeolite zones. llvaite crystallizes in the form of black prismatic crystals and columns rock, mineral, ilvaite, ilvaite specimen -
The Beechworth Burke Museum
Geological specimen - Copper Ore
This specimen was recovered from Silverton Mine in Broken Hill, New South Wales. Otherwise known as the 'Day Dream Mine', the Silverton Mine was first established in 1883, when silver and lead deposits where discovered. Within a few short years, the population of Broken Hill reached 3000 people. As of today the Silverton Mine is still open, and has produced over 200 million tonnes of ore, which has generated over $100 billion. The Silverton Mine was also famous for a number of specimens such as silver, iron and zinc.Copper is considered to be a rare ore in that finding it in its pure form is rare. Nowadays when mining for Copper it is often found in mixed in with other minerals or it is recycled from use. Moreover, Copper is found in a range of everyday uses such as coins, cookware, pipes, heating conductors and anything that generate electricity. The fact that Copper is heat a heat conductor, electricity conductor and it does not corrode easily, makes this ore a versatile and useful. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid hand-sized cube-shaped sulfide and oxide with shades of green, grey and brown throughout. Copper is typically found as nuggets in the ground. It can be found in a range of forms such as its native state; mixed with other ores, such as zinc and iron; as porphyry copper deposits; and as major deposits. Porphyry deposits are when the mineral is scattered evenly throughout the rock. Major deposits are when the mineral is scattered amongst other minerals.burke museum, beechworth, indigo shire, beechworth musum, geological, geological specimen, mineraology, copper, copper ore, copper ore speciment, broken hill, new south wales -
The Beechworth Burke Museum
Geological specimen - Chalcopyrite
This specimen originated from Mount Lyell on the west coast of Tasmania, where a large group of open cut and underground copper-silver-gold mines began operating in 1883. Between 1893-1994, the Mt Lyell Mining and Railway Company were responsible for operations. The Mt Lyell copper-gold mines produce some excellent crystallised specimens of chalcopyrite and other minerals. The deposits are generally considered to be of Cambrian volcanic origin, but there are indications of Devonian granitic influence on the ores, plus local remobilisation during Devonian deformation. Over 120 million tonnes of ore was produced from several workings, including the main Prince Lyell mine and the North Lyell mine, which was also of great importance. The Mount Lyell mines have a long history of human and environmental disasters, including the 1912 North Lyell fire that killed 42 miners, and two separate incidents in 2013 in which three people lost their lives. The environmental impacts from this complex of mines are extensive, with waste tailings and heavy metal contamination flowing directly into the King and Queen River catchments. In 1954, the eminent Australian historian, Geoffrey Blainey, published 'The Peaks of Lyell' which delves into the history of the 1912 North Mount Lyell Disaster.Chalcopyrite does not contain the most copper in its structure relative to other minerals, but it is the most important copper ore since it can be found in many localities and occurs in a variety of ore types. The brassy-yellow colours in Chalcopyrite mean it is often confused with pyrites and gold, leading to use of the term, "fool's gold." Chalcopyrite has been the primary ore of copper since smelting began five thousand years ago. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.This hand sized solid mineral specimen has shades of brass-yellow with spots of iridescent green-black tarnish. Chalcopyrite is a copper iron sulphide mineral and a major ore of copper common in sulphide veins and disseminated in igneous rocks. Chalcopyrite has a hardness of 3.5-4 on the Mohs Scale. It is a member of the tetragonal crystal system and has metallic lustre and opaque transparency.burke museum, beechworth, indigo shire, beechworth museum, geology, geological specimen, chalcopyrite, copper pyrites, copper mining, tasmanian geology, mount lyell, mount lyell mines, fools gold, mohs scale, crystals, minerals, historical geological collection, victorian geological survey, a.r.c selwyn, gold rush, van diemans land -
The Beechworth Burke Museum
Geological specimen - Chalcopyrite, Unknown
This specimen was recovered from Mica Schist, Canada. Chalcopyrite is a copper iron sulfide mineral with a chemical composition of CuFeS2. Its name derives from the Greek words for copper (chalco-) and brass (pyrite). It can be found in shades of yellow, green and grey, and, when exposed to acid, it can change to purple, blue, violet and yellow tones. Weathering can cause loss of its metallic luster and its brass-yellow colour. Chalcopyrite forms under various conditions, with the most significant deposits being hydrothermal in their origin. It is known globally as the most important ore of copper for thousands of years, and is thus considered a very important mineral formation. Given its golden appearance, it is often confused for the mineral gold, earning it the popular reputation as 'fool's gold' or 'yellow copper'. However, it can be straightforwardly distinguished from gold; the latter is soft, with higher specific gravity and a yellow streak, whereas chalcopyrite is brittle, easily scratched by a nail, and has a greenish grey streak. Copper was the first metal that was used by people. It was discovered by the Neolithic man about 9,000 years ago and it gradually replaced stone as it was easier to be shaped. In Australia, search for copper began after the European settlement, leading to the discovery of substantial deposits, like the one at the Olympic Dam in South Australia, which is regarded as one of the largest copper deposits in the world. Chalcopyrite has been used for copper since smelting processes began approximately five thousand years ago. Although by no means rare, this the specimen of this mineral can be used to reflect a wider history of industrial uses of copper for a significant portion of human history. This specimen is part of a larger collection of geological and mineral specimens collected from around Australia (and some parts of the world) and donated to the Burke Museum between 1868-1880. A large percentage of these specimens were collected in Victoria as part of the Geological Survey of Victoria that begun in 1852 (in response to the Gold Rush) to study and map the geology of Victoria. Collecting geological specimens was an important part of mapping and understanding the scientific makeup of the earth. Many of these specimens were sent to research and collecting organisations across Australia, including the Burke Museum, to educate and encourage further study.A solid hand-sized copper iron sulfide mineral of brass yellow, often with an iridescent tarnish, with greenish-black streak and submetallic luster. Chalcopyrite can be formed in several ways, including crystalizing from accessory minerals in igneous rocks, or from magma or within volcano sulfide deposits. Most commonly, chalcopyrite are found in hydrothermal conditions, where it forms in hydrothermal veins. As a member of the tetragonal crystal system, it often takes the shape of tetra-headed crystals, often with striations along the sides of the crystals. #18 Copper pyrites/(chalcopyrite) in/Laurentian Slate/(page 315 of inventory)/page missing from/descriptive catalogue/ Other label: 81 /fool's gold, chalcopyrite, mineral, rock, geology, geological, hydrothermal, neolithic, european settlement, olympic dam, south australia, stone, deposits, specific gravity, greenish grey streak, brittle, mineral gold, metallic luster, cufes2, greek words -
El Dorado Museum Association Inc.
Photograph - Digital Image
Cocks Pioneer Power Station No 1. 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. Handrwitten on right side of image: PIONEER MINE ELDORADO Handwritten on left side of image: AJ EVANS PHOTO / WANGARATTAmines, mining, gold, tin, gold mining, tin mining, sluicing, hydraulic mining, energy, power station, cocks pioneer, el dorado, eldorado -
Stawell Historical Society Inc
Memorabilia - Realia
Iron Kibble Bucket for mining. Used to lift mullock and ore up mine shaft.stawell -
Puffing Billy Railway
V. R. Krupp 1888. IV. Rail, 1888
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 -
Puffing Billy Railway
Zeehan & North East Dundas Tramway Bogie 1896, wagon bogie, 1896
Zeehan & North East Dundas Tramway Bogie 1896 The North East Dundas Tramway (NEDT) was a 2 ft (610 mm) narrow gauge tramway on West Coast Tasmania that ran between Zeehan and Deep Lead (now Williamsford). It was part of Tasmanian Government Railways. The line was opened in 1896 to carry ore from the Williamsford mines to Zeehan where it would be loaded onto another train for shipment to Burnie. The narrow-gauge (2 ft) was chosen because of the extremely difficult terrain that the railway crossed, requiring several big trestle bridges, including one at the foot of Montezuma Falls. After some rain the engine and carriages would get soaked by spray from the falls. There was a break-of-gauge with the mainline 1,067 mm (3 ft 6 in) system at Zeehan. The railway was closed in 1932. The rolling stock for the Tramway was built in the Launceston Railway workshops, and comprised twenty five eight-wheel low-side trucks, tare 3 tons 1 cwt. 1 qr., load 10 tons; six eight-wheel flat trucks, tare 2 tons 18 cwt. 1 qr., load 10 tons; two four-wheel bolster trucks, for carrying long timber, tare 1 ton 19 cwt., load 5 tons; and four passenger cars, each with six cross-seats with reversible backs, to carry eighteen passengers, also a locker for mails and parcels. All trucks and cars have cast-steel wheels 21 inches in diameter and are fitted with automatic vacuum brakes. The trucks have side levers and the cars have hand-screw brakes. The vacuum brake can be worked from the engine or from the passenger cars, which act as brake vans. When this brake was introduced, one effect was to accelerate the journey speed by about 10 minutes owing to more even running on down gradients. Historic - Industrial Narrow Gauge railway - Bogie used on the Zeehan & North East Dundas Tramway, Tasmania, Australia Bogie made from steel, iron and wrought ironZN & NTDS ML TRAM 1896 Griffinpuffing billy, bogie, zeehan & north east dundas tramway bogie, zeehan & north east dundas tramway, industrial narrow gauge railway, gauge: 2' (610 mm) -
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 -
Andrew Ross Museum
Miner's Bucket
Dates from gold-mining period in Queenstown (St. Andrews) Caledonian Diggings. Used for lift ore to the surface by windlass in small-scale shaft mines.Heavy leather bucket with iron reinforcing and handle. Panels are stitched and joined with thonging Ironwork is hand-forged and rivetted in place. -
Stanley Athenaeum & Public Room
Geological specimen - Iron Ore, Iron Ore (pure) - geological specimen
... Iron Ore...Iron Ore (pure) - geological specimen...-country Iron Ore Geological specimen Iron Ore (pure) - geological ... -
Clunes Museum
Functional object - DOLLY POT
Cylindrical iron made from mercury holderNildolly pot, gold mining equipment, manual ore crusher -
Clunes Museum
Book, Percy, John, Percy's Metallurgy - Iron & Steel, 1894
Dowlais is a former Iron/steel making and coal mining town in Wales, United Kingdom.1 Hardcover book light brown embossed cover, gold lettering on spine, 1864, subject matter, the art of extracting metals from their ores and adapting them to various purposes of manufacture. With illustrations, chiefly from original drawings, carefully laid down to scale. .2 Newspaper Article "Dr. Percy on Iron and Steel" published in The Times Tuesday, May 17, 1864 .3 Plan for Dowlais New Mills Gold Lettering on spine: "Percy's Metallurgy Iron & Steel London John Murray Faded Maroon stamp page 2 - Clunes School of Mines No. 24 16 Jun 93metallurgy, mining -
Rutherglen Historical Society
Image, 1931
Photographs showing the works at the Great Southern Mine, cyanide plant, which was an important part of the process of separating gold from the ore.One of 4 small black and white photographs, mounted on a single album page. This one shows six men, taking a break from their work in a corrugated iron shed. Written on album page between photos: "Great Southern Mine Cyanide Plant 1931"great southern, gold mining, gold processing, cyanide plant -
Rutherglen Historical Society
Image, 1931
Photographs showing the works at the Great Southern Mine, cyanide plant, which was an important part of the process of separating gold from the ore.One of 4 small black and white photographs, mounted on a single album page. This one shows three pumps in a corrugated iron building.Written on album page between photos: "Great Southern Mine Cyanide Plant 1931"great southern, gold mining, gold processing, cyanide plant -
Victorian Railway History Library
Book, Mount Newman Mining Company, The Mount Newman Project, 1968
... Railroads - freight - Australia A report on the building of an iron ...A report on the building of an iron ore railway from Port Hedland to Mount Newman in the Pilbara region of Western Australia.maps, p.17.non-fictionA report on the building of an iron ore railway from Port Hedland to Mount Newman in the Pilbara region of Western Australia. railroad construction - western australia - history, railroads - freight - australia -
Victorian Railway History Library
Book, Joyce, John et al, Railways in the Pilbara, 1979
... in the Pilbara region of Western Australia... most for hauling iron ore ...A history of the railways in the Pilbara region of Western Australia... most for hauling iron ore.ill, maps, p.88.non-fiction A history of the railways in the Pilbara region of Western Australia... most for hauling iron ore.railroad construction - western australia - history, railroads - freight - australia -
Victorian Railway History Library
Book, Hamersley Iron Pty Ltd, Hamersley Iron Railways, 1978
... Railway for Iron Ore in the Pilbara region of Western Australia ...A history of the Hamersley Iron Railway for Iron Ore in the Pilbara region of Western Australia.ill, maps, p.87.non-fictionA history of the Hamersley Iron Railway for Iron Ore in the Pilbara region of Western Australia.railroad construction - western australia - history, railroads - freight - australia -
Federation University Historical Collection
Unknown - Model, Edwards' Ore Reduction Furnace Model, pre 1924
This model of a mechanical ore roasting and chloridising furnace was invented and patented by Thomas Edwards of the Edwards Pyrites Smelting and Ore Reduction Company. This new type of furnace produced a high standard of sulphur free ore known as ‘sweet roasted’. Edwards used this model for demonstrations in the USA. Of note is the central large vertical cogwheel (externally driven) which drives small vertical cogwheels via angled cogging drives. These in turn drive a horizontal wheel. Each side of the vertical wheel is set on an opposite side to the horizontal wheel of its neighbours, resulting in opposite direction rotation of neighbouring horizontal wheels. Each horizontal wheel turns a rabble (set of vertical iron paddles) within the furnace. These rabbles, each turning in opposite direction to its neighbours, move the roasting ore in a zig-zag path through the furnace. The elongated furnace with its line of rabbles produced a much ‘sweeter’ roasted ore than could be obtained from a typical tank-shaped furnace. In 1924, when the model was donated to the Ballarat School of Mines, Ballarat’s Courier newspaper reported, ‘Apart from its historical and education value, the gift should serve to stimulate the inventive faculties of the students who have to win fame for the school and for themselves in the metallurgical world.’ The furnace model was donated to Ballarat School of Mines and used as an educational prop from 1924. The model relates to the mining industry which is a significant part of Ballarat's history and heritage. Ballarat School of Mines is the oldest Technical School in Australia and is celebrating 150 years in 2020.Metal model of Edwards' Ore Reduction Furnace. The model includes cogwheels, rabbles and other details. Scale is thought to be around 1:20M259ballarat school of mines, edwards, pyrites, ore reducation, edward retallack, mining, model -
Kiewa Valley Historical Society
Miners Pick - short
Formerly KV 071. It was used to break up rock and ore, making it easier to extract valuable minerals. The pointed end of the pick axe was used to chip away rock, while the flat end was used to strike the rock for breaking it apart. This one has a short handle. Miners picks were commonly used in the the 19th and early 20th centuries for extracting gold from underground mine tunnels.Used in the Kiewa Valley where prospecting for gold occurred.Formerly KV 071. Cast iron symmetrical pick tool on cast iron with a wooden handle. It has a pointed end and a flat end. It is 12 inches long.gold mining, miners' pick axe, hand tool -
Bendigo Historical Society Inc.
Photograph - NORTH DEBORAH GOLD MINE
North Deborah Gold Mine, south of Breen Street, Golden Square. Concrete ore bins and section of iron chimney in foreground. Steel poppet leg visible on extreme LH side.Kay MacGregorbendigo, mining, north deborah gold mining company -
Lakes Entrance Regional Historical Society (operating as Lakes Entrance History Centre & Museum)
Album - Photograph, LERHS, 2000
... Mines and Mining iron ore... in The Houses of Nowa Nowa in the year 2000 Mines and Mining iron ore ...These photographs were illustrations in The Houses of Nowa Nowa in the year 2000Folder containing colour photographs of some buildings at Nowa Nowa Victoriamines and mining iron ore