Cast Iron lace was made in foundries in most cities. There were 42 such foundries in Melbourne alone. It was cheaper to make than wrought iron. "Pig iron", iron ore was melted in a blast furnace, mixed with alloys and then poured into molds usually made of sand. The alloys needed a minimum of 2% carbon. Three black and white photographs by Alan Doney of the residence 'Illira' at 57 Forest St, Bendigo. The first photo shows the front of the residence. The other two photos show detail of the wrought iron on the verandah. alan doney, bendigo, wrought iron, illira bendigo

CAst iron lace was made in foundries in most cities. There were 42 such factories in Melbourne alone. It was cheaper to make than wrought iron. "Pig iron", iron ore, was melted in a blast furnace, mixed with alloys a nd then poured into moulds usually made of sand. The alloys needed a minimum of 2% carbon.A black and white photograph by Alan Doney of Early Nurses House Lucan Street (Bendigo Base Hospital). Now incorporated in portion of present Nurses home A Doney Bendigo - Copyalan doney, bendigo, wrought iron

Cast iron lace was made in foundries in most cities. There were 42 such foundries in Melbourne alone. It was cheaper to make than wrought iron. "Pig iron", iron ore, was melted in a blast furnace, mixed with alloys and poured into moulds usually med from sand. The alloys needed a minimum of 2% carbon.Black and White photo by A Doney of sandblasting iron lace work on unknown property in Bendigo. Two internal photos of door and arch ways. Larger photo of balustrade with verandah pillars in backgroundA Doney Bendigoalan doney, bendigo, wrought iron

Blue paperback book, 81 pages, this book contains information on the Flude families of Australasia, Joseph Flude lectured at the School of Mines and Industries in 1871, " he offered his services gratuitously". He lectured in Inorganic Chemistry and Metallurgy. non-fictionschool of mines, joseph flude, flude family history, robert malachy sergeant, chemistry, metallurgy, ballarat school of mines self-acting pyrites furnace, ballarat school of mines, family history, genealogy, herbert werner frederick de nully

Hard covered book of 80 pages with a yellow dust jacket. Many sketches including Armstrong Street, Lydiard Street, Montrose Cottage Eureka Street, Lauderdale, Ballarat Railway Station. Bailey's Mansion, Former Ballarat Gaol, Ballarat Town Hall, Camp Street Police Station. Ballarat East Post Office, Ballarat Synagogue, Lal Lal blast furnace, Sovereign Hill, Mount Buninyong, Dana Street Primary School. non-fictionballarat, buildings, architecture, edward heffernan

Two copies of Auction Catalogue for an auction sale of Machine tools, pressed, electric furnaces and General equipment at the No. 2 Store, Cordite Avenue Maribyrnong held on Thursday, 27th June, 1946. Page 1 contains a Special Notice. Page 2 Conditions of Sale Pages 3 to 16 contains photos of presses and lots up to 103. There are five photos of presses. £, S, & D columns down the page beside the lot numbers.business, auctioneers, j h curnow & son pty ltd, ian dyett collection - auction catalogue - commonwealth disposals commission 27/6/1946, j h curnow & son pty ltd, j l jamieson & co, w g wedd, prahan telegraph print

The building in the photograph is the Boiler House which was part of the former Sunbury Asylum. It was built in the 1920s to replace an older boiler. Coal and/or briquettes were burned to produce hot water and steam which was used to heat and supply hot water for the Asylum buildings. Steam attendants monitored and maintained the furnace and boiler seven days a week. It ceased production in October 1992 and since then has served as an Arts and Cultural complex for the local community. A non-digital black and white photograph of a large brick building with a tall chimney overlooking open rural countryside with two women sitting on the grass in the foreground. The image has been photographed from an earlier photograph. sunbury asylum, boiler house, arts and cultural complex, performing arts

In 1911 R. Maddern was President of the Ballarat School of Mines. Contents of this booklet are: Asssociateship, Calendar, Certificate Courses, Departmental Regulations, Discipline, Discipline Board, Examination Results, Fees, Full Certificates Issued, General Regulations, Introduction, Junior Technical School, Officer Bearers, Professors and Lecturers, Subjects of Instruction - Department of Chemistry and Metallurgy, Geological Department, Engineering Department, Electrical Engineering Department, Department of Mathematics and Physics, Practical, Plane and Solid Geometry, Photography, Subscriptions and Donations 1910. Plan of Buildings and Grounds Engineers with qualifications from the Ballarat School of Mines were sought by mines throughout the world. Blue soft covered book of 64 pages titled the Ballarat School of Mines Calendar. The book includes images of the Engineering Room, the Maddern Roasting Furnace, Museum, Junior Chemical Laboratory, Plan of Buildings and Ground, Chemical Laboratory, Concentration Floor, Linkenbach Table, Engineering Laboratory, Experimental Steam Engine, Chemical Lecture Room, Physics Instruction Room, Newtonian Telescopy, Ballarat Observatory, Instructor's Laoratory, Wilfrey Table, Chlorination plant, Cyanide House and R. Maddern. ballarat school of mines, scientific equipment, engineering, classroom, desks, gas lighting, calendar, r. maddern, j. m. bickett, w. h. middleton, j. d. woolcott, w. nixon, daniel. walker, fred j. martell, professor a. mica smith, hubert r. murphy, charles a. deane, arthur garrard, professor t. s. hart, professor a. d. gilchrist, a. e. c. kerr, j. brittain, e. j. a. mcconnon, john m. sutherland, bertram whitington, h. j. hall, e. gutheil, charles campbell, t. williams, d. e. mullins, sir redmond barry, judge rogers, r. m. sergeant, thomas bath, andrew anderson, general regulations, discipline, discipline board, associateship and final certificates, mining engineering, metallurgy, geology, electrical engineering, certificate courses, junior technical school, fees, subjects of instruction, chemistry, geological department, engineering department, electrical engineering department, department of mathematics and physics, practical, plane and solid geometry, photography, full certificates issued, supplementary examination results - may 1910, supplementary examination results - april 1908, subscriptions and donations 1910

Red covered auction catalogue with black printing for a sale on the 15th and 16th February, 1983 under instructions from L. G. & D. M. McKenzie, rainbow, Vic. For sale was the complete Engineering and Structural Steel Machinery, Plant, Equipment, Motor Vehicles, Commercial Refrigeration, Ice Maker, Cool Rooms, 10 New Air Conditioners, 5 new Gas Furnaces, Hardware, General Equipment Steel and Scrap. J. H. Curnow & Son Pty. Ltd. Were the auctioneers.business, auctioneers, j h curnow & son pty ltd, ian dyett collection - auction catalogue - l g & d m mckenzie, j h curnow & son pty ltd, bolton bros pty ltd

The machinery in this photo shows a Tournapull C earth moving machine, one of many during this period Circa 1950 - 1960s when hydro electricity powered turbines were being constructed in both the Victoria and New South Wales Alps. This was Australia's answer to a non polluting supply of electricity for a fast growing city population. It was at this time that air pollution from coal powered furnaces was becoming more and more under attack by health authorities.This item is part of a visual account of the construction of dams and hydro electricity facilities during the early 1950s. It was the beginning of the environmental push not to allow the degrading of Australian Alpine regions. Air pollution of the major cities and the increase in power demands of both industries and population within them required an alternative pollution free alternative electricity supply. These for runners of Hydro electricity generators required both large supplies of machinery and human resources. This construction phase within the region brought not only tradesmen but also unskilled workers to an area which had mainly had farming and mining activities. It was the catalyst for the creation of the smaller towns/villages e.g. Bogong Village, Mount Beauty and Bright.Black and white photograph on Kodak Xtralite II paper.(gloss)paper marking on back Kodak Xtralite II papermining, hydro electricity, victorian alps, construction camps, earth moving machines, secv

Branding irons are used to print a burn an identifying marker on the hide of horses or cattle so that they may be later identified if they become lost or escape from their pasture. The irons were typically forged by blacksmiths using a toolset that included hammers, anvils and chisels. The branding irons were used by heating the end bearing the owner’s initials to a very high temperature in a furnace, and then burnishing it against the skin of the cow. Brands were registered with state governments as unique marks. This allowed for a state registry to be maintained. This is an example of an implement used locally in the livestock industry.A branding iron with letter R on circular end. Handle loop is oval shaped. It has been painted blue to half way.branding-iron rural-industry

Branding irons are used to print a burn an identifying marker on the hide of horses or cattle so that they may be later identified if they become lost or escape from their pasture. The irons were typically forged by blacksmiths using a toolset that included hammers, anvils and chisels. The branding irons were used by heating the end bearing the owner’s initials to a very high temperature in a furnace, and then burnishing it against the skin of the cow. Brands were registered with state governments as unique marks. This allowed for a state registry to be maintained. This item is an example of a common implement used in the livestock industry in Orbodt.A long-handled branding iron with an S or 2 on the end. There is a loop at the top for hanging.branding-iron rural livestock-industry

Branding irons are used to print a burn an identifying marker on the hide of horses or cattle so that they may be later identified if they become lost or escape from their pasture. The irons were typically forged by blacksmiths using a toolset that included hammers, anvils and chisels. The branding irons were used by heating the end bearing the owner’s initials to a very high temperature in a furnace, and then burnishing it against the skin of the cow. Brands were registered with state governments as unique marks. This allowed for a state registry to be maintained. This item was used in Orbost in the livestock industry.This item is an example of an implement once used in the livestock industry in Orbost.A branding iron with the letter W on the end. It has a long iron handle with a ring grip at the top.branding-iron rural-industry

Branding irons are used to print a burn an identifying marker on the hide of horses or cattle so that they may be later identified if they become lost or escape from their pasture. The irons were typically forged by blacksmiths using a toolset that included hammers, anvils and chisels. The branding irons were used by heating the end bearing the owner’s initials to a very high temperature in a furnace, and then burnishing it against the skin of the cow. Brands were registered with state governments as unique marks. This allowed for a state registry to be maintained. This item was used in Orbost in the livestock industry.This item is an example of a common implement used in rural industry in Orbost.A branding iron with the letter J on the end. It has a long handle with a ring grip at the top.branding-iron livestock-industry rural-industry

Branding irons are used to print a burn an identifying marker on the hide of horses or cattle so that they may be later identified if they become lost or escape from their pasture. The irons were typically forged by blacksmiths using a toolset that included hammers, anvils and chisels. The branding irons were used by heating the end bearing the owner’s initials to a very high temperature in a furnace, and then burnishing it against the skin of the cow. Brands were registered with state governments as unique marks. This allowed for a state registry to be maintained. This branding iron was used in Orbost. This item is an example of an implement commonly used in the livestock industry in Orbost.A long-handled branding iron with J H at the end. There is a hanging loop at the top.branding-iron rural livestock-industry

The Ballarat School of Mines was the first School of Mines in Australia and was established in 1870. 22 page booklet titles 'The Ballarat School of Mines: A Statement of the Objects and Resources of the School.' The book has a number of illustrations including the interior of the Ballarat School of Mines Laboratory, and the former Ballarat Circuit Court House. It includes a statement of the formation, progress, and present position of the School of Mines, Ballaarat. The image of the Ballarat School Mines Assay Room shows assay furnaces, crucibles, chimney, and teacher Joseph Flude on the far right. This room is now is a building known as the 'Old Chemistry Building'. Plan and elevation of the new Metallurgical Laboratory and Proposed Chemical Laboratory is depicted.On front cover "Recorded in M-A" "1873"ballarat school of mines, assay, courthouse, joseph flude, crucible, furnace, flude, warrington rogers, brough smyth, harrie wood, wood, james bickett, bickett, redmond barry, somerville learmonth, metallurgy, chemistry, laboratory, examinations, mining engineer, assayer, inorganic chemistry, underground managers, captains of shift, engieners, enginedrivers, louis balhausen, james campbell, l.s. christie, j.j. casey, alexander dempster, g. higinbotham, james martin, alexander millan, malcolm morrison, band of hope and albion, city of ballarat mining company, city of canterbury gold mining company, egerton mining company, el dorado gold mining company, golden reef gold mining company, happy valley company, hope quartz mining company, long tunnel gold mining company walhalla, hopewell quartz mining company, imperial quartz mining company, student numbers, fees, magdala quartz mining company stawell, mariners and sloane's quartz mining company, new north clunes company, park company, temperence quartz company, tookey quartz company new zealand, walhalla gold mining company, matthew seal, harrie woodmuseum, duke of cornwall claim, john lynch, robert m. sergeant, engineers, f.w. niven, william henry barnard, ballarat school of mines museum, museum, ballarat school of mines library, donations of specimens, mining

Various artifacts from the steamship 'Wattle'. The Steam Tug Wattle, a steel ship, was built as a harbor tug in 1933. Steam is supplied from a two-furnace Scotch Marine wet-back boiler which was originally fired with dewatered and filtered waste oil but has recently been converted to burn distillate for environmental and maintenance reasons. It was launched at Cockatoo Island on 27 June 1933 by Cockatoo Docks & Engineering Co. Ltd. (CODECO) on order from the Commonwealth Shipping Board. Now fully restored it operates excursions in Port Phillip and the Yarra. One of a very few still operating steam tugs.Brass inclinator mounted on timber plate.steam tug wattle, harbour tugs

Various artifacts from the steamship 'Wattle'. The Steam Tug Wattle, a steel ship, was built as a harbor tug in 1933. Steam is supplied from a two-furnace Scotch Marine wet-back boiler which was originally fired with dewatered and filtered waste oil but has recently been converted to burn distillate for environmental and maintenance reasons. It was launched at Cockatoo Island on 27 June 1933 by Cockatoo Docks & Engineering Co. Ltd. (CODECO) on order from the Commonwealth Shipping Board. Now fully restored it operates excursions in Port Phillip and the Yarra.Solar Reflector with spirit level in wooden boxst wattle, navigational intruments

'A communication from Mr. A.T. Balaam asking that the Central Board of Health be communicated with on the subject of arsenical fumes from the furnaces of the Bendigo Tailings Company at Quarry Hill, where pyrites are to be treated, was also referred to the Mayor.' Bendigo Independent, City Council, p9. 31st May 1913. 'Tenders are invited by the Bendigo Tailings Company for the purchase of two complete cyanide plants, first class assay plants, stores and equipment. Full details may be obtained from the Manager, Mr. J.J. Stanistreet.' Bendigo Independent, p4, 3rd March. 1916.Dark green hard dover book, maroon binding on spine. One hundred and sixty six pages of which ninety three are used. On front cover, white label with 'Double Ledger' printed in black. On front page, a purple stamp: ' Bendigo Tailings Company, No Liability' Alphabetical index in front of book detailing names and pages of transactions. Example for 'L' entry: lease rents; Langdon S.J.; Lansell G.V., L.N. and E; land. Entries in book date from 1912 - 1913. Ledger forms part of the Margaret Roberts Collection of Mining records.bendigo, margaret roberts, , goldmining, bendigo tailings co. n.l., mccoll rankin and stanistreet, arsenic

Glass bottles and glass jars are in many households around the world. The first glass bottles were produced in south-east Asia around 100 B.C. and the Roman Empire around 1 AD. America's glass bottle and glass jar industry were born in the early 1600s when settlers in Jamestown built the first glass-melting furnace. The invention of the automatic glass bottle blowing machine in 1880 industrialized the process of making bottles. In 2019, plans were made to re-introduce milk glass bottle deliveries to Auckland in early 2020 The earliest bottles or vessels were made by ancient man. Ingredients were melted to make glass and then clay forms were dipped into the molten liquid. When the glass cooled off, the clay was chipped out of the inside leaving just the hollow glass vessel. This glass was very thin as the fire was not as hot as modern-day furnaces. The blowpipe was invented around 1 B.C. This allowed molten glass to be gathered at the end of the blowpipe and blown into the other end to create a hollow vessel. Eventually, the use of moulding was introduced, followed by the invention of the semi-automatic machine called the Press and Blow. In 1904 Michael Owens invented the automatic bottle machine. Before this time most glass bottles in England were hand blown. This is one of four bottles in our Collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases etc before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in the 1850s-1900s. The bottle gives a snapshot into history and a social life that occurred during the early days of Melbourne's development and the sea trade that visited the port in those days. 1850's Pontiled Black Glass Stout/Porter/Ale Beer Bottle, solid colour brown glass,concave base with Pontil scar, tapering slightly wider towards shoulder then inwards towards neck; ring of glass just below opening cork and wire type.Label "c.1850's "Stubby ale" hand made in England flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, brown glass bottle, handmade glass bottle, handmade beer bottle, handmade late 19th century bottle

"The United Pyrites Company's Works are situated about three quarters of a mile from Spargo Brothers, and are on the northern side of the Marong road, in Pinch-gut Gully. Two processes are followed at these works, viz., the amalgamating process and the treatment by means of chlorine gas. The latter is called the Newbery-Vautin system, and the mode pursued is that laid down by Mr. Cosmo Newbery and Mr Vautin, whose names have been given to the process. Mr. Edwards manages these works. Three reverbatory furnaces are used to roast the pyrites, which is weighed in the truck before being put into the furnaces. At this weighbridge a sample of each lot is kept, and if the yield is not equal to expectation, the works are carefully gone over to see where the fault occurs. Care is taken at the furnace to regulate the heat, otherwise the pyrites might slag instead of roasting evenly right through. An immense revolving furnace (made of boiler iron) was used at these works. It was found to be suitable for treating blanket sand, but was not a success for roasting coarse pyrites. The process of amalgamating by means of Chilian mills is the same in these works as at the Western Works, but the United Works are on a larger scale, and eleven mills are utilised. It is the chlorine gas process which is most interesting here. The gas is made from sulphuric acid, black oxide of manganese, and common salt, and the gas is introduced into huge vats, where it works its way through a filter of pieces of quartz and then through the bed of roasted pyrites lying above. The action of the gas transforms the gold into chloride of gold. This is easily dissolved in water, and in that form is drawn off into huge delf jars, where the use of sulphate of iron precipitates the gold to the bottom. A small battery—eight head of stamps in two boxes—is in use here to crush small consignments of stone sent for trial. Test crushings come from all the Australasian colonies, and even from India. The jars used are manufactured at Epsom, and some of the salt used is also of home manufacture, from the Salt Lakes on the Northern plains. Mr. Edwards took us over a new building in course of erection, and in which the chlorine gas is to be generated in the midst of the pyrites— a still further advancement in the new process. There is some very good machinery in this new building, and the tailings from the ordinary pyrites works will also be treated by this chlorine gas system, which has been found to work well at Mount Morgan, in Queensland. The purest of gold is obtained by this process, the gold passing in solution into a charcoal filter, from which it emerges in the shape of metallic gold. We saw some nice cakes of retorted gold at the works. One of 26oz. was from some New Zealand pyrites (2½ tons), and assayed over 23 carats. There were also cakes of Avoca gold, of silver, and of the tremulous amalgam." (The Argus, 4 February 1887)Two handwritten letters to the Ballarat School of Mines on Bendigo United Pyrites Company Letterhead.bendigo united pyrites company, pyrites, ballarat school of mines, j.j. deeble, joel deeble, joel james deeble, a.m. dean, fred j. martell, martell, s.h. cowan, letterhead

Contents include: Associateship and final certificates; Calendar for 1903; Discipline; Fees; Full Certificates issued; general regulations: Honorary Correspondents: Office Bearers; Professor and Lecturers; Results of exams; Statistics; Subscriptions and Donations; Subjects included in Regulation Technical Schools; Subjects on Instruction; Subjects included in Associateship course, Time table. Images include: Andrew Anderson, Lecture Rooms (Administration Building), Senior members of staff, School Buildings and Grounds, Linkenbach Table - Battery Laboratory, Engineering laboratory interior, junior Chemistry Laboratory; Assay Laboratory, Battery Laboratory interior, Maddern FurnaceCharcoal soft covered book at 100 pages. ballarat school of mines, andersnon\bickett, vale, warrington rogers, oddie, dunn, figgis, david ham, herman, lindsay, lonie, maddern, middleton, morrison, nevett, pearce, scott, woolcott, wanliss, r.e. williams, henry cuthbert, thomas hart, charles kent, frederick martell, newman, william bailey, hamilton, bechervaise, george russell, thomas bath, r.m. serjeant, peter matthews, theo williams, alfred mica smithh, daniel walker, hubert murphy, charles deane, arthur garrard, valentine anderson, douglas runtin, john balyney, l. cameron, dawbarn, a.e.c. kerr, john adams, edgar mcconnon, hall, john m. sutherland, usher, charles campbell, metallurgy, geology, certificate as mine manager, certificat as assayer, labratory, museum, land and mine surveying, applied mechanics, machine drawing and dedign, mechanics applied to mining, engineering laboratory, electrical department, state school lectures, excursions, mathematics, physics, geometry, photography, chemistry, organic chemistry, assaying, mining gelogy, mineralogy, petrology, algebra, trigonometry, mensuration, land surveying, mine surveying, steam and gas engines, dynamics and heat, sound and light, magnetism and electricity, electrical tecnology, botany, veterinary science, engineering drawing, electroplating

Photograph shows Geelong power station after completion. Power house building on the SW corner of Corio Tce. and Yarra Sts, Geelong, with new furnace room on the left, turret removed from the corner of the building, a third floor added on the Corio Tce. side but offices and concreted company name above where the trams entered the depot from the street not yet built. Date between 1924 and 1928 (based on photograph of Pengelly tramcar arriving and recently received, secondhand Melbourne tramcar). The ground floor offices facing Corio Tce. appear to be boarded up.Yields information about the Geelong Power station c1926Black and white print on paper.Plate number 1-8 in ink on back of photo.tramways, geelong, mesco, power station

This bottle is sometimes referred to as a black glass 'Gallon' bottle. It is used for storing and transporting liquor such as stout, porter or ale. Glass bottles and glass jars are in many households around the world. The first glass bottles were produced in south-east Asia around 100 B.C. and the Roman Empire around 1 AD. America's glass bottle and glass jar industry were born in the early 1600s when settlers in Jamestown built the first glass-melting furnace. The invention of the automatic glass bottle blowing machine in 1880 industrialized the process of making bottles. In 2019, plans were made to re-introduce milk glass bottle deliveries to Auckland in early 2020. The earliest bottles or vessels were made by ancient man. Ingredients were melted to make glass and then clay forms were dipped into the molten liquid. When the glass cooled off, the clay was chipped out of the inside leaving just the hollow glass vessel. This glass was very thin as the fire was not as hot as modern-day furnaces. The blowpipe was invented around 1 B.C. This allowed molten glass to be gathered at the end of the blowpipe and blown into the other end to create a hollow vessel. Eventually, the use of moulding was introduced, followed by the invention of the semi-automatic machine called the Press and Blow. In 1904 Michael Owens invented the automatic bottle machine. Before this time most glass bottles in England were hand blown. This is one of four bottles in our Collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases and other medical issues before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in the 1850s-1900s. The bottle gives a snapshot into history and a social life that occurred during the early days of Melbourne's development and the sea trade that visited the port in those days. Bottle, glass, solid dark brown (black), round, matt surface. Glass ring below mouth, neck is slightly bulbous, seam line around shoulder, body tapers slightly inward from shoulder to base. Base is concave with pontil mark. Bottle has a white mark down the side. No inscription. Generally used for storing stout, porter or ale.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, handmade bottle, handmade english beer bottle, pontil bottle, black glass, gallon

This bottle is sometimes referred to as a black glass 'Gallon' bottle. It is used for storing and transporting liquor such as port or madeira. Glass bottles and glass jars are in many households around the world. The first glass bottles were produced in south-east Asia around 100 B.C. and the Roman Empire around 1 AD. America's glass bottle and glass jar industry were born in the early 1600s when settlers in Jamestown built the first glass-melting furnace. The invention of the automatic glass bottle blowing machine in 1880 industrialized the process of making bottles. In 2019, plans were made to re-introduce milk glass bottle deliveries to Auckland in early 2020. The earliest bottles or vessels were made by ancient man. Ingredients were melted to make glass and then clay forms were dipped into the molten liquid. When the glass cooled off, the clay was chipped out of the inside leaving just the hollow glass vessel. This glass was very thin as the fire was not as hot as modern-day furnaces. The blowpipe was invented around 1 B.C. This allowed molten glass to be gathered at the end of the blowpipe and blown into the other end to create a hollow vessel. Eventually, the use of moulding was introduced, followed by the invention of the semi-automatic machine called the Press and Blow. In 1904 Michael Owens invented the automatic bottle machine. Before this time most glass bottles in England were hand blown. This is one of four bottles in Flagstaff Hill Maritime Museum collection that were recovered by a local diver from the quarantine area just inside the Port Phillip Heads. Ships were required to pull into this area to check for diseases and other medical issues before they could head up to Melbourne. Quite often they would drink and throw the bottles overboard. Handmade glass bottle, manufactured in the 1850s. The bottle gives a snapshot into history and a social life that occurred during the early days of Melbourne's development and the sea trade that visited the port in those days. Bottle, glass, solid dark purple (black), round, matt surface. Glass ring below mouth, neck is slightly bulbous, body tapers slightly inward from shoulder to base. Base is concave with pontil mark. Bottle has no inscription. Generally used for storing port.flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, handmade bottle, handmade english beer bottle, pontil bottle, black glass, gallon, purple bottle, ale bottle, porter bottle

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

The water cart was in itself a complete invention of John Furphy and was first made in the 1880's. At the time no similar article was used in Australia. Few houses of the time were designed to collect rain water from the roof and hence, water needed to be collected elsewhere and transported for stock and domestic use. The method of carting water was then confined to horse drawn drays or sleds with mounted wooden barrels or casks. At the same time the growing demand for agricultural implements, led to the establishment of a foundry with a furnace to cast components rather than the time consuming task of forging. This became the catalyst for the efficient production of the robust and mobile water carrier known then, and now, as the Furphy Farm Water Cart.Four colour photographs showing a tank made by Furphy and Sons, Shepparton.furphy, shepparton, water storage