Manilla Folder Held together with brass pins containing Assay Certificates from S. R. Mitchell & Co. Pty Ltd. The Majority of them are for L. C. Stuckey Esq. 199 Barker Street Castlemaine and a few of them are for Sir Herbert Gepp 422 Collins Street Melbourne. Also contains a list os samples taken from Reefs near the Devonshire Mines Castlemaine. The Dates range from 1935 to 1937.S. R. Mitchell & Co., Pty, Ltd. Metallurgists. 399 Little Colins Street, Melbourne.gold, mining, metallurgists, gold mining, castlemaine, s.r. mitchell, l.c. stuckey, sir herbert gepp

Document. Metallurgists reports from Victor Leggo Mining Co. Pty. Ltd. And the Bendigo School of Mines and Industries.McColl, Rankin & Stanistreetorganization, business, nell gwynne reef mine, mccoll, rankin & stanistreet, nell gwynne reef n/l, gold mining, victor leggo mining co. pty. ltd, bendigo school of mines & industires, pyrites file

Ian Russell Cayzer was a metallurgist and scientific computer priogrammer.Ian Cayzer."Ian Kayzer Cayzer C&N 30/10/85 p 27"cayzer, ian, metallurgist, computer programmer

J Wearmouth on back of photograph who probably attend the school. Joseph Wearmouth was a Geologist & Metallurgist. Sepia Photograph of Classroom with students and teachers sitting around bench with laboratory glasswareThe Stawell Technical College and School of Mines Classroom for Quantitative and Volumetric Analysis Balance Roomeducation

Bendigo Advertiser article, 27th March, 1995, titled 'End of gold era dawns on city'. Ranger Gold tailings retreatment operations in north Eaglehawk will be 'wound up' by the end of 1995. Ranger Gold metallurgist, Paul Duke, 'told the Advertiser that its efforts in the past three years had yielded 17,000 ounces of gold which was worth $7.8 million'. Black and white photograph: Ranger Gold metallurgist Paul Duke stands on the absorption platform at the Eaglehawk plant. Ladderway to next level on right hand side. gold mining, bendigo, ranger gold, tailings, retreatment, paul duke, carbon-in-pulp

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

Francis Alexander McFarlane Born: 5 Sep 1878 Maldon, Mount Alexander Shire, Victoria, Australia. The 6th child (5th Son) of 10 children born to John James McFarlane and Jane Matthews. Died: 19 May 1962 Coburg East, Merri-bek City, Victoria, Australia. Francis married Margaret Ada Tobin in 1904 in Maldon, Mount Alexander Shire, Victoria, Australia. McFarlane worked extensively in the mining industry. According to electoral rolls McFarlane lived in Maldon from 1903 to 1927. During this time, he worked as a "cyanider" (using cyanide to separate gold from the ore) from 1903 to 1909. By 1912 he had listed his occupation as an assayer. By 1927, he listed his occupation as a metallurgist. By 1931, he was working as a metallurgist in Coburg before moving to Bendigo sometime in or prior to 1936, where he listed his occupation as "assayer". He appears as a postal worker in Coburg in 1949. He was still in Coburg in 1952 but does not have an occupation listed.This 10-page book (including cover) is the status of account for Mr. FA McFarlane from the opening of the account on 25 March 1936 to 4 Dec 1937. The account was held by the Commercial Bank of Australia. The book has a cardboard cover covered in navy blue fabric. The pages are made of thick paper, each containing tables for the purpose of tracking the accounts balance. The cover has a label stuck to the front with Mr. McFarlane's name written on it. The account book is full, with every page showing transactions. Each entry was made with either a stamp or an ink pen. The Bank book contains the Bendigo Historical Society identifier number. Otherwise, everything handwritten is associated with the financial record.commercial bank of australia, mr. f.a. mcfarlane, francis alexander mcfarlane, 1930s, finance, bendigo, mining, gold mining

Five double-sided fact sheets prepared for the New Bendigo Gold Project. Each sheet explains particular facts about the development of the project; planning permission, co-disposal, mullock emplacement, intensive leaching and beneficial reuse of mine by-products are given detailed explanations. Contact details are listed on the bottom of each sheet, for example 'Philipa Varris, Environment Manager, Bendigo Mining' and 'Colin Burns, Project Metallurgist, Bendigo Mining'.bendigo mining n.l., bendigo, mining, gold, kangaroo flat, new bendigo gold project, planning permission, co-disposal, mullock emplacement, intensive leaching, beneficial reuse of mining by-products

This dress was worn by Nancy Kirsner (nee Rosenhain, b. 1906) and her older sister Mona (b. 1903) as children in England. Nancy Bertha Rosenhain was born in Worchestershire to German-Australian metallurgist Walter Rosenhain and Australian Louisa Rosenhain (nee Monash). Louisa was the sister of Sir John Monash; the couple met through a synagogue in Melbourne before settling in England. Nancy travelled to Melbourne in 1929 and was married to Marcus Kirsner on 24 July 1932. Nancy and Marcus lived together at 3 Baroona Court in Brighton.White cotton piqué dress. Square neck. Skirt gathered at waist. Broderie anglais trim around neck and sleeves. Hand-embroidered cornelli work on sleeves, bodice, and skirt. Small frill on skirt. Three self-covered buttons at back.children's clothing, 1900s, nancy bertha rosenhain, mona henrietta rosenhain, jewish diaspora

ballarat, school of mines and industries, electrical engineering, mechanical engineering, civil engineering, mining engineer, metallurgist, architect, industrial chemist, commercial artist

ballarat, school of mines and industries, electrical engineering, mechanical engineering, civil engineering, mining engineer, metallurgist, architect, industrial chemist, commercial artist

Rae's School was opened on the 22nd April 1861, with 22 students. Mr. John Rae was the Headmaster. By 1919, it was an adjunct of the Violet Street State School.Sepia coloured postcard . Image on front shows twenty-eight male and female students and two young male teachers seated at front. Sign in front of students reads: Central School, Rae's Hill, Form E. 9th February 1919. Students are standing in front of a brick building, with verandah immediately behind them. On back 'Post Card, correspondence and address only'. Kodak printed around space for stamp. Text donated with the photo relates to Sir John Michael Higgins (1862-1937) a metallurgist, government adviser and company director who attended Rae's School, Sandhurst and then Bendigo High School. This photo is not of his era at the School. Written in black pen on back of postcard: 'Rae's Hill School 9th Feb. 1919'rae's common school, rae's school, rae's hill, john rae, barbara rae, 1919

Document: Pink Manilla folder containing invoices for ore purchased by Victor Leggo Mining Co Pty Ltd, Metallurgists, Bendigo School of Mines and Industries Reports on loads taken from mines weighed and contents analysed results in reports, first 6 reports are from Bendigo School of Mines and Industries were headed with their logo, receipts for work by Bendigo School of Mines and Industries, items dated 1st July 1938 to 11 April 1942, markings on front cover read: 'Pyrite Results', 'Central Napoleon', folder has 'East Light Loop Cobra Binder File' logo on cover with ordering instructions and patent number section to write: File Number, Name, Address, Date. Usage instructions inside cover.organization, business, industry - mining, mccoll rankin & stanistreet, mining, gold mining, central napoleon

1957 - Art Lending Library, Neville Bunning, Dana Street Primary School - The Original Ballarat Junior Technical School, ATC, Flight Cadets; Ballarat Junior Girls' Technical School, Ballarat North Junior Technical School, Roll Call 1960 - Ballarat School of MNes Literary Sociaty, begonia parade, Efficient reading, enter the modern, Lois Morris, sheetmetal, G. Cornell Obituary, I. Menz Obituary, metallurgists' Society, Olympic games 1961- Red, black and white soft covered magazine of the Ballarat School of Mines Information outlined in the magazine includes: The Richard W. Richards Medal, Philips Electrical Industries scholarship, A.F. Heseltine scholarship, Hong Kong To-Day (by Daniel Yung), A Treatise on Mount Morgan, Bath Push, The Stud Room, A Gentlemen's Excursion to Beaufort House, Electrical Laboratory, Metallurgical Laboratory, The Australian Aboriginal in Modern Civilization (J. Kavanagh) , The history of Electricity ballarat school of mines, ballarat junior technical school, cadets, flight cadets, airforce cadets, ballarat school of mines students' association, noel delosa, noel whiticher, bob coutts, noel kelly, les dobie, noel murphy, malcolm peel, peter agrums, ian weir, sue mole, val baker, neil bromley, kevin oscar rogers, h.e. arblaster, richard w. richards, dick richards medal, keith hindson, james tinney, walter tooth, john bethune, vilma sansom, betty clark, travers duncn, joyce wilson, lex lockhart, jim beattie, joyce stevens, slim ingleton, john skuja, murray gillan, graeme willey, diana mainwaring, eureka stockade, east africa, canada, sumatra, chris sanos, greece, malaya, bee-keeping, worshipful company of plumbers, hong kong, daniel yung, mount morgan, history of electricity, peter robinson, john clelland, davis schmist, harry brue, harry brew, rex hollioake, broken hill, excusions, john wolfe, beverly selkirk, barry singleton, mara jekabsons, bill widdop, frank pomeroy, art lending library, john mckenzie, ballarat girls' technical school, robert norton, graeme williams, alan bethuse, janis erdmanis, alan rock, gail trewanack, tony white, ching thung tay, jack tay, noel whitcher, norm nash, helen ross, eric mcgrath, g. cornell death, i menz death, john wolffe, brian duthie, bill durant, w.g. durant, heather walton, heather durant, beverly singleton, neville bunning

In 1883 the Ballarat School of Mines made some changes in order to make better use of the services of the teachers and to extend "as far as practicable the special educational advantages already afforded" by the School. One of the changes was the introduction of a three years course of training under the professors to qualify students for the following three professions: Analyst and Metallurgist, Electrician, and Geologist and Mining Surveyor. The Council was to confer the distinction of Associate. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p77) Students who took single subjects or pursued such courses as those for certificate of either mine manager or assayer were not required to pass an entrance examination. Students who wished to qualify for an associateship in once of the courses were expected to have a general education of matriculation standard and to have attended all the prescribed courses of instruction unless they were able to produce to the satisfaction of the School's Board of Examiners evidence of having attained elsewhere the degree of proficiency which was required in any particular subject or subjects. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p177) Ballarat School of Mines Associateships have been conferred since 1894 on candidates who had passed the prescribed examinations in one or other of the following three courses: Geology, Metallurgy and Mining engineering. Each of these three courses had an additional, but optional, fourth year of study. The prescribed subjects of study for an Associateship were set out in 'The Calendar of the Ballarat School of Mines' in each year. (Warren Perry, The School of Mines and Industries, Ballarat, 1984, p177)A number of timber boards with gold lettering. The list names in date order of when they became an Associates of the Ballarat School of Mines.ballarat school of mines, ballarat school of mines associate, associate of the ballarat school of mines, lonie, jennifer drummond, jill blee, jilian norton, zig plavina, associate boards

R.M. Serjeant was listed as a mining manager and Joseph Flude as a metallurgist. In 1875 they were both living in Ballarat. The patent number is A.D.1875, 4th March. No 2031. According to the patent the hearth of the furnace is in the form of a cone revolving horizontally. The feed is supplied to the apex of the cone by an archimedian screw. The crown of the furnace comprises a double covering or roof with an intermediate chamber for receiving heated air. The inner covering is pierced to admit of the heated air being brought into contact with the pyrites on the face of the revolving hearth. The discharge of the roasted substance is affected by means of a scraper at the base of the cone. It was claimed that this was a new mode of introducing heated air, and the exclusion of flame during the operation of roasting pyrites. The self-acting charge and discharge of the furnace and the peculiar construction of the hot air chambers, and the use of perforated bricks through which the supply of air is affected were also new. (http://patentsvictoria.net/002031.html) From the Goulburn Herald, 14 September 1878 "A feature connected with the school of mines is the yet unfinished pyrites works. The extraction of the gold from pyrites and the utilization for commercial purposes of other substances connected with pyrites are peculiarly important to Ballarat, because were a simple and inexpensive method devised there are millions and millions of tons of quartz that would then be made remunerative. With this thought in their minds two scientific gentlemen invented the school of mines self-acting rotatory furnace. This, for lack of funds, has not been completed as yet, but the amount in hand for the purpose is daily increasing, and it will eventually be an accomplished fact. It is in contemplation also to erect machinery shops in connection with the school, and it is purposed to con struct a steam-engine to do at once the work of the pyrites treatment and the ma chine room. A model shaft and mine too are being prepared for on the reserve, so that practical mining of the most thorough character may be taught on the ground.'Large indenture on red bordered vellum. The indenture was regarding a patent for the benefit of the Ballarat School of Mines. Letters Patent for an Invention for Roasting Pyrites to be called 'the Ballarat School of Mines self-Acting Pyrites Furnace" to Robery Malachy Serjeant and Joseph Flude. The large document is on a vellum type paper complete with stamps and seal. The document is signed by Acting-Governor William Stawell. Inscriptions and Markings Written on verso: "Date of Patent 4th March 1875 No 2031 Letters Patent for An invention for roasting pyrities to be called "The Ballarat School of Mines Self-acting Pyrities Furnace" to Robert Malachy Serjeant and Joseph Flude Melbourne, Victoriaballarat school of mines, serjeant, r.m. serjeant, robert m. serjeant, flude, joseph flude, patent, barry, redmond barry, rogers, judge rogers, bland, rivett henry bland, john airy, warrington rogers, establishment, indenture, legal, cuthbert, ballarat school of mines trustees, william stawell, john warrington rogers

R.M. Serjeant was listed as a mining manager and Joseph Flude as a metallurgist. In 1875 they were both living in Ballarat. The patent number is A.D.1875, 4th March. No 2031. According to the patent the hearth of the furnace is in the form of a cone revolving horizontally. The feed is supplied to the apex of the cone by an archimedian screw. The crown of the furnace comprises a double covering or roof with an intermediate chamber for receiving heated air. The inner covering is pierced to admit of the heated air being brought into contact with the pyrites on the face of the revolving hearth. The discharge of the roasted substance is affected by means of a scraper at the base of the cone. It was claimed that this was a new mode of introducing heated air, and the exclusion of flame during the operation of roasting pyrites. The self-acting charge and discharge of the furnace and the peculiar construction of the hot air chambers, and the use of perforated bricks through which the supply of air is affected were also new. (http://patentsvictoria.net/002031.html) From the Goulburn Herald, 14 September 1878 "A feature connected with the school of mines is the yet unfinished pyrites works. The extraction of the gold from pyrites and the utilization for commercial purposes of other substances connected with pyrites are peculiarly important to Ballarat, because were a simple and inexpensive method devised there are millions and millions of tons of quartz that would then be made remunerative. With this thought in their minds two scientific gentlemen invented the school of mines self-acting rotatory furnace. This, for lack of funds, has not been completed as yet, but the amount in hand for the purpose is daily increasing, and it will eventually be an accomplished fact. It is in contemplation also to erect machinery shops in connection with the school, and it is purposed to con struct a steam-engine to do at once the work of the pyrites treatment and the ma chine room. A model shaft and mine too are being prepared for on the reserve, so that practical mining of the most thorough character may be taught on the ground.'Letters Patent for an Invention for Roasting Pyrites to be called 'the Ballarat School of Mines Self-Acting Pyrites Furnace' to Robert Malachy Serjeant and Joseph Flude. The large document is on a vellum type paper complete with stamps and seal. The document is signed by Acting-Governor William Stawell.Written on verso: "Date of Patent 4th March 1875 No 2031 Letters Patent for An invention for roasting pyrities to be called "The Ballarat School of Mines Self-acting Pyrities Furnace" to Robert Malachy Serjeant and Joseph Flude Melbourne, Victoriaballarat school of mines, serjeant, r.m. serjeant, robert m. serjeant, flude, joseph flude, richard gibbs, stawell, william stawell, pyrities furnace, philately, statute stamp, seal (victoria), ballarat school of mines self-acting pyrities furnace, ballarat school of mines self-acting pyrites furnace

Massey Ferguson (Australia) Limited Engineering Division|Managing Director - L. T. Ritchie|Chief Engineer - J. K. Gaunt|Assistant Chief Engineer - J. Llewellyn|Chief Project Engineer Harvesting - J. Wood|Project Engineer Hay Machines - W. N. Rennie|Assistant Project Engineer Hay Machines - B. Walsh|Project Engineer Combines - W. M. Albert|Assistant Project Engineer Combines - K. A. Bannerman|Administrative Engineer - L. J. Berry|Metallurgist - O. Ellen|Laboratory Test Engineer - M. Rhymes|Budget Officer - A. P. Archer|Office Supervisor - B. Tyndall|Engineering Shop Superintentant - J. E. Carter|Assistant Foreman - J. V. Howe|Chief Field Test Engineer - J. E. Douglas|Field Test Engineer - H. H. Taylor|Field Test Engineer - C. Brett|Field Test Engineer - W. A. Trott|Chief Engineer Tractor & Tillage - J. F. O'Callaghan|Project Engineer Tillage - R. F. Spargo|Project Engineer Tillage - Vacant|Project Engineer Tractors - A.A. Hurren|Project Engineer Tractors - Vacantmassey ferguson, sunshine harvester works, kennrth "ken" porter

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

The first school of Mines in Australia was established at Ballarat in 1870. At the time of its jubilee (1930) the following people were members of the School Council: W.H. Middleton (President), W.T. Humphreys (VP), J.S. Vickery (VP), F. Barrow, Col. W.K. Bolton, William Baragwanath, A.E. Cutter, J.N. Dunn, G. Fitches, W.H. Fleay, F. Herman. W.D. Hill, T. Hurley, K. Kean. J. Kelly, L. Lederman, Mayor of Ballarat, Mayour of Ballarat East, D. Maxwell, M. Martin, R. Maddern, D. Ronaldson, F. Saunders, R. Stephenson, A.O. Stubbs, R.E. Tunbridge. The School Staff in 1920 comprised: Herbert H. Smith, Walter Rowbotham, Reginald L. Cutter, M.C. Young, Hilda Wardle, M. Wiliamson, P.S. Richards, L.H. Archibald, J. Woods, Ken Moss, W. Kenneth, Mrs McIlvena. B. Robinson, S. Rowe, E. Hope-Jones, Miss Abrams, L.St.G.P. Austin, Alfred Mica Smith, J.R. Pound, Herbert R. Murphy, N.H. Junner, Maurice Copland, L.H. Archibald, E.J.A. McConnon, Newton King, D.m. Hull, T.R. Gordon, John M. Sutherland, T.K. Jebb, Dick Richards, C. Tonkin, A.W. Steane, J. Paterson, H.W. Malin, R.V. Maddison, S.M. Mayo, F.A. King, W.H. Steane, T.R. Gordon, T.A. Williams, H. Waldron, G. Black, E.J. McConnon, R.V. Duncan. R. Cutter, E.G. Vawdrey, Hilda WardleWhite stapled booklet - landscape format - 20pp + soft covers with blue writing. Includes an historical sketch of the Ballarat School of Mines. Contains images of the school from around 1920. The history outlined in the booklet follows: 'Ballarat has helped to influence the life and destinies of Australia in many ways, the recital of which would perhaps prove tedious to the citizens of less favoured localities! However, it can be said, without much fear of contradiction, that only less known thought Australia than its fame as a gold field is the reputation won for it by its school of Mines, ... Ballarat was still quite a new place when the School was founded, but a very propserous and popular place all the same, with a go-ahead lot of citizens brim full of the spirit of enterprise which seemsto animate mining populations generally. Money was plentiful, and they launched out into ventures, which later, were to develop and take the place of the gold mines, while what is more to the point, they understood the value of education. the old digging days were passing away. So far as Ballarat itself was concerned the day of the cradle and tin dish had already passed into an antiquity "as dead and distant as the age of the Tubal Caon," said dir redmond Barry on declaring the School open. Mining had become a serious business, and the mining engineer, the metallurgist, and the geologist had become a power in the land. In these circumstances the suggestions to found a School of Mines met with ready acceptance. The late Mr James M. Bickett had the honor of bringing forward the proposition at a meeting of the Ballarat Mining Board in October, 1869. it was agreed to, and the Government, having been approached for assistance, granted a lease of the old Supreme Court buildings at a nominal reantal. A modest sum, including 100 pounds from the Borough Council of Ballarat West, was subscribed by a number of sympathisers, and on the 26th October, 1870, the inaugural address was delivered by Sir Redmond Barry, the first President of the School. Classes were commenced on the 23rd January, 1871. The students at first were mostly adults. They were chiefly men emloyed at the mines, who had the wisdom and energy to devote their spare time to study, and, though their attendance was somewhat irregular, they made very good progress. Old prints which have been preserved show them at work at furnaces, big bearded men of the old-fashioned type of miner. It is interesting to note that among those who gave evidence and encouragement was Sir Roderick Murchison, who many years before had advised Cornish miners to emigrate to Australia to search for gold, and who in 1848 was in possession of gold ore sent from this country. Sir Roderick sent a parcel of books for the library, and gave useful advice as to the curriculum which should be adopted. The Museum, which now contains a most valuable collection of minerals, was one of the first things attended to, and the reports presented to the Council from time to time speak of additions being made from all parts of the world. New equipment was constantly being added to the School, a good deal of assay work was done, and some specimens were sent from the East Indies for examination as far back as 1873. By this time there was a difficulty in providing accomodation for the students who wished to enrol, and the number of instructors had grown from two to four. In 1882 the first building was being erected on what was then part of the gaol reserve. A little more than ten years afterwards a buildnig formerly serving as a Methodist Church was absorbed, while later on, the demand for accomodation increasing, the attack upon the gaol was renewed. The School continued to grow in reputation and size, and became the science centre of the district, and in 1889 a learge new building was opened by Sir Alexander Peacock. Students came from over seas as well as from all the States of Australia, and after going through their courses they took with them the name and fame of the old School to all parts of the globe. School of Mines boys have played a great part in developing the mining fields of Western Australia, South Australia, and africa, while old students who have made a name in their profession are constantly dropping in to see how the old place is getting along. It was not to be expected, however, that the Ballarat School would be left without rivals, its very success inspiring competition. Mining Schools were started in other parts of Australia, and, at the same time, Victoria ceased to hold first place as a mining state. On the other hand there was a great advance in manufacturing, and the demand for technicaly trained men became a great and as insistent as ever it had been for trained mining men. The Council was quick to adapt the school to the new conditions, and the result is seen in the institution, which is one of Ballarat's proudest possession. Instruction is given in all branches of technical work, and the classes are filled with students who are building up for Ballarat a reputation as an industrial centre, which promises to equal that which it formerly held as a mining town. Owing to its bracing climate, its abundant opportunities for recreations, and its accessibilty, Ballarat as a city is an ideal place for educational purposed, and is yearly becoming more and more appreciated throughout the State. The chairman of one of Ballarat's biggests industries claims that the workman can do twice the day's work here that he can do in Melbourne. he was a little enthusiastic over it, perhaps, but it is a well-known fact that the healthy and invigourating Ballarat climate is conducive to both physical and mental activity, and the records of the School provide ample proof of it. One of the most interesting and successful branches of the School of Mines and Industries - if the name be enlarged with the enlargement of its scope - is the Technical Art School. "The City of Statues" has from its earliest days been a stronghold of art. Art schools have flourised here, and in 1905 the Education Department came to the conclusion that the best thing to do with them was to place them under the management of the School of Mines Council. A magnificent new Technical Art School was built at a cost of some 12,000 pounds on the site of the old Supreme Court building, and was formally opened on the 23rd July, 1915. The results have not only been justified but surpassed all anticipations. The most comprehensive list of subjects is taught, and this list is constantly added to. Students have flocked to the art School, which may be said to occupy a unique position in Australia, and its record of success is really astonishing. Its students supply art teachers for the newer schools that are being built, and many occupy leading positinos in important business houses. So well is its reputation known that orders are constantly being received, not only from Victoria, but from other States, for honor boards and challenge shields to be designed and made. The most recent addition to the School of Mines and Industries is the Junior Technical School, for which a new building is now being erected on a portion of the gaol site, transferred to the School of Mines Counci by the Government. At the present moment temporary quarters are being occupied. Some students after passing through the Junior School go straight to employment, continuing perhaps to attend the evening trade classes, while others move on to the senior School. In a review of the work of the School of Mines mention must be made of a series of industrial research carried out under supervision of the Principal. One in particular, regarding the suitability of the local ores for the manufacture of pigments attracted much attention, while the experiemtns on the manufacture of white potery from Victorian clayes were considered of sufficient importance by the Federal Advisory Council of Science and Industry to warrant the appointment of a special investigator. The results of these have been most encouraging, and may have far-reaching consequences. The vocational training of returned soldiers also should not be overlooked. The work was taken in hand from the first, before the Repatriation Department gave assistance, and now with the help of the department of the School has become one of the largest vocational training centres in Victoria outside of Melbourne. The soldiers, trained in a variety of occupations, have made remarkable progress, and already considerable numbers have found employment in local workshops and factories. To sum up, the School is divided into the following departments, each well staffed and equipped: - The School of Mines, science, and Engineering; the Techncial Art School, the Boys' Junior Technical School, the Girl's Preparatory Technical Classes, Trade Classes, and the Commercial School. The school of Mines, science and Engineering, comprises the following branches: - Mining, Metallurgy, Geology, Electrical Engineering, Civil Engineering, Mechanical Engineering, Applied Chemistry, and Pharmacy. Battery treatments, Cyanide Testing, Smelting, Assays, and Clay Testing from a regular part of the School's work. Students gaining qualifications obtain concession in their courses at the university, should they proceed there to continue their studies. The technical Art school curriculum includes training in all branches of pictorial and applied art, an Architectural Diploma Course, a Draughtman's Course, technical Art teachers' Course, Photography,Ticket Writing, Art Metal Work, Woodcarving, Needlework, and Leather work. The Trade Classes give instruction in Telephone Mechanics, telegraphy, Carpentry, Cabinet Making, Plumbing, Blacksmithing, Fitting, Electric Wiring, and Printing. Numerous Scholarships are offered every year, and altogether students will find few places to equal the Ballarat School of Mines and Industries as a training place for their life's work. One of the first in the continent to be established, its Jubilee finds it still in the front rank, keeping pace with the times, and offering to the youths of this country the means of taking advantage of Australia's teeming opportunities. william, battery, smith, herbert, drawing from the antique, ballarat school of mines botanical gardens, ballarat school of mines, redmond barry, alfred mica smith, james bickett, museum, dick richards, ballarat junior technical school, s m b, ballarat school of mines and industries, ballarat technical art school, model mine, james m bickett, j m bickett, roderick murchison, vocational training rooms, wesley church, methodist church, alexander peacock, lathes, repatriation, repatriatin department, war service, school council, baragwanath, gold mining, mining laboratory, plaster cast, r.w. richards, anniversary, jubilee