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Bendigo Historical Society Inc.
Photograph - 247 View St, Bendigo
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.A black and white photograph by Alan Doney of the building at 247 View St in Bendigo. The photo shows detail of the wrought iron on the verandah. alan doney, bendigo, wrought iron -
Bendigo Historical Society Inc.
Photograph - 257 View St, Bendigo
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 moulds usually made of sand. The alloys needed a minimum of 2% carbon.A black and white photograph by Alan Doney of the building at 257 View St in Bendigo. The photo shows detail of the wrought iron on the verandah. alan doney, bendigo, wrought iron -
Bendigo Historical Society Inc.
Photograph - 22 Valentine St, Bendigo
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.A black and white photograph by Alan Doney of the building at 22 Valentine St in Bendigo. The photo shows detail of the wrought iron on the verandah. alan doney, bendigo, wrought iron -
Bendigo Historical Society Inc.
Photograph - 288 View St, Bendigo
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 moulds usually made of sand. The alloys needed a minimum of 2% carbon. A black and white photograph by Alan Doney of 288 View St in Bendigo. The photo shows detail of the wrought iron on the fence. alan doney, bendigo, wrought iron -
Bendigo Historical Society Inc.
Photograph - 159 Forest St, Bendigo
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 moulds usually made of sand. The alloys needed a minimum of 2% carbon.A black and white photograph by Alan Doney of 159 Forest St in Bendigo. The photo shows detail of the wrought iron on the verandah. alan doney, bendigo, wrought iron -
Bendigo Historical Society Inc.
Photograph - Corner McKenzie Short
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 moulds usually made of sand. The alloys needed a minimum of 2% carbon.Black and White photos by A Doney of House on corner of Mc Kenzie and Short Street Bendigo showing lace ironwork on the balustrade.Photo A Doneyiron lace work, a doney, historical home bendigo -
Bendigo Historical Society Inc.
Photograph - Cathedral Short Street Bendigo
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 moulds usually made of sand. The alloys needed a minimum of 2% carbon.A black and white photograph by Alan Doney of Caretakers Residence Cathedral Short Street Bendigo showing detail of the wrought iron on the verandah. A Doney Bendigoalan doney, bendigo, wrought iron, balustrade -
Bendigo Historical Society Inc.
Photograph - Bench Seat Iron Lacework
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 and then poured into moulds usually made of sand. The alloys needed a minimum of 2% carbon.Black and White photos by A Doney of bench seats one showing fern detail and the other leaves and flowers.Photo A Doneyiron lace work, a doney, bench seats -
Bendigo Historical Society Inc.
Photograph - Cnr Forest Barnard Streets Bendigo
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 made with sand. The alloys needed a minimum of 2% carbon.Black and White photo by A Doney of Balustrade on property on the corner of Forest and Barnard Streets Bendigo.A Doney Bendigoalan doney, bendigo, wrought iron, forest street bendigo, barnard street bendigo -
Flagstaff Hill Maritime Museum and Village
Lead Shot Mould
Bullets for early firearms were made as lead balls in iron scissor moulds. The moulds had scissor action, with ends shaped as a hollow half-sphere that formed a ball when the handles closed. Melted lead was poured into a small filling hole in the top of the closed mould. When the lead was set the handles were opened and the ball was released from the mould. Excess lead was trimmed using the cutting edge of the mould. The task of pouring the melted lead into the mould had to be performed slowly so that air pockets didn’t form. The shot would have a join line around it, which would make it inaccurate; the join needed to be carefully filed to make the ball into a smooth sphere. Larger quantities of lead shot were often cast in a multi-bullet mould that was used in a similar way. Lead shot mould; cast iron, scissor type metal object with sphere shaped mould at end used to make lead shot balls for a shotgun. Mould has a cutting edge to trim off excess lead.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, firearms, bullet, cast bullet, lead ball, lead shot, scissor mould -
Flagstaff Hill Maritime Museum and Village
Lead Shot Mould
Bullets for early firearms were made as lead balls in iron scissor moulds. The moulds had scissor action, with ends shaped as a hollow half-sphere that formed a ball when the handles closed. Melted lead was poured into a small filling hole in the top of the closed mould. When the lead was set the handles were opened and the ball was released from the mould. Excess lead was trimmed using the cutting edge of the mould. The task of pouring the melted lead into the mould had to be performed slowly so that air pockets didn’t form. The shot would have a join line around it, which would make it inaccurate; the join needed to be carefully filed to make the ball into a smooth sphere. Larger quantities of lead shot were often cast in a multi-bullet mould that was used in a similar way. Lead shot mould; cast iron, scissor type metal object with sphere shaped mould at end used to make lead shot balls for a shotgun. Mould has a cutting edge to trim off excess lead.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, firearms, bullet, cast bullet, lead ball, lead shot, scissor mould -
Bendigo Historical Society Inc.
Photograph - Early Nurses Home BBH
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 -
Bendigo Historical Society Inc.
Photograph - Lace Iron Work
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 -
Kiewa Valley Historical Society
Soldering Irons x3
A soldering iron is a hand tool used in soldering. It supplies heat to melt solder so that it can flow into the joint between two workpieces. The iron was heated over a fire or in a charcoal brazier. Soldering irons were primarily used by tinsmiths and coppersmiths to work with thin sheet metal. These hand soldering irons have been replaced by electric ones.Used by coppersmiths and tinsmiths and workers in the Kiewa Valley.The soldering irons have a wooden handle, an iron rod and are made of copper at the pointy end (the bit).shaped like a pyramid.soldering iron, hand tool, coppersmith, tinsmith -
Beechworth Honey Archive
Antique Wax Foundation Mould
To use this foundation mould, melted beeswax was poured , the lid was placed on top, and the wax allowed to cool. The mould was then separated, and the beeswax foundation sheet taken out. Once placed in a hive, bees used the honeycomb impression created by the mould to draw out honey comb cells to store honey and polen. This mould was used by Bill Voigt, a beekeeping friend of the Robinson family. It was donated by Wilma, Val and Richard Voigt.This is antique equipment used by known beekeepers. Rectangular box with base and no lid. Constructed from wood, joined with metal nails in the corners. Inside box is a metal mould base with hexagonal imprint and metal mould lid with hexagonal imprint.antique, old, wax, foundation, mould, beechworth honey, voigt, robinson -
Montmorency/Eltham RSL Sub Branch
Accessory - Gloves, Flyers, Summer
Worn by Swinfield in IraqGloves, Flyers, Summer. Dark green fabric upper stiched with grey leather on the usage side (palm side) from finger tips to wrist area. White printed identification label located on the fabric wrist area of the left glove. 4mm elastic stiched for 3.5cm length on the inside of the glove located at the lower wrist area below the thumb. Left glove: Size marking 11. Gloves, Flyers, Summer. Type GS,EBN-237. MIL-G-81188B. TRANSLERO.INC. CAGE 27547. NSN 8415-01-029-0116. The cloth portion of this glove is fabricated from an intermediate fire resistant material (MCMEN) that does not melt or drip. Can be laundered without losing its fire resistant protection and no retreatment is necessary.iraq, gloves -
Kiewa Valley Historical Society
Bucket Ice, circa mid 1900's
This mid 1900's ice "bucket" was used during the first major "American" (fashion invasion) of merchandise for the "new " social set. This was a form of release, coming after the tight money restrictions during the "Great Depression" and from World War II.This item is an example of the change of direction in regards to household cutlery and crockery which the Australian rural environment slowly progressed through. This progression was due to a closer alliance with the USA after World War II and and increase push in marketing by USA manufacturers of their Australian partners and the closer alliance between the two nations. The American service men and women on recreational leave during the "South Pacific war" front brought both nations closer together and the requirement of American industries to find new markets resulted in "cheaper" mass produced silverware onto the Australian scene, which at that time were mainly sourced from the UK and Europe. This silver plated "ice bucket" with lid and handle has "pot belly" shape. A smaller circumference top, bulging center and smaller bottom. The lower inside shape of the "bucket" allows for a "grate" to be placed 40mm from the bottom (this grate would separate the "solid" ice cubes from the melted ice water). There is a "U" shaped "swiveled" handle with "art deco" type leaves(grape) reinforcing the cross section. There are two bands of "grape leaf" motifs, one smaller one at the top rim and a larger one on the bottom at the point of furthest bulge.At the outside base is the manufacturers logo "K" and encircled in small print are "KNICKERBOCKER MFG CO. QUADRUPLE PLATE"silver plated ice "bucket", bottle cooler -
Orbost & District Historical Society
moustache cup, late 19th - first half 20th century
The moustache cup is a drinking cup with a semicircular ledge inside. The ledge has a half moon-shaped opening to allow the passage of liquids and serves as a guard to keep moustaches dry. It is generally acknowledged to have been invented in the 1860s by British potter Harvey Adams (born 1835). Moustaches flourished throughout the Victorian era. Men often applied great gobs of melted wax to the moustache to keep it nice and stiff, with every hair in place.Between 1920 and 1930, moustaches progressively began to go out of fashion and hence moustache cup production gradually dwindled. This cup is an example of a common domestic item of its time. The Nixon families were among the earliest settlers on the Snowy River.A drinking cup with a semi-circular ledge inside - a moustache cup. It is white with a mauve stencilled border design and pink roses in the centre.Bottom - 34 472/5moustache-cup china domestic-items crockery -
Royal Australian and New Zealand College of Obstetricians & Gynaecologists (RANZCOG)
Gold wishbone pessary associated with Dr Cyrus Jones
Stem pessaries were made from a variety of materials including silver, copper, gold, ivory, horn, hard rubber, and ebony from the late 1880s. The wishbone pessary had flexible wings that were covered in wax and compressed to facilitate insertion into the cervical canal. Once inserted, the wax would melt and the wings would broaden out slightly. Initially, the effectiveness of these devices as a contraceptive was not widely broadcast. Rather, their efficacy in supporting the uterus and during dysmenorrhea were claimed.Stem pessary, wishbone design. Intrauterine device, made of 9ct gold. It has a round head and two flexible wings."9C"pessary, intrauterine device, contraception -
Vision Australia
Text, Association for the Advancement of the Blind Home Committee November 1941 - May 1950, 1941-1950
Minutes of the monthly meetings of the AAB Home Committee held at 7 Mair Street, Brighton to discuss items related to the running of the Brighton home for the Blind (later named 'Elanora'). A brief index of names preceeds the minutes. Agenda topics included Accounts, Matron's Report, Applications for Admission and Official Visitors, appointment of a special nurse (p.39), an Adventist service conducted in the home being too large and needed to reduce number (p.92), and that bread for tea should be buttered late in the afternoon and not be in a melted condition (p.154). 1 paper registerassociation for the advancement of the blind, elanora home (brighton) -
Bendigo Historical Society Inc.
Document - GOLD SALE NOTES FOR NICHOLAS BOLLE, 1868 - 1887
Document. Gold Sale notes for Nicholas Bolle. Papers pinned together covering the years 1868 - 1887 being statement of gold melted and assayed for Nicholas Bolle from the Eaglehawk branch of the Bank of Victoria. A few of the papers are from the Bank of New South Wales - Eaglehawk Branch, Bank of Australasia, Bank of Australasia Gold Office. The earliest statement dated 3 Jul 1868 is for Messrs Harrison & Bashton. Other early ones are for Derbyshire Reef. The Bank of Victoria cards mention R. H. Andrews, Agent on the back. The Bank of Australasia Gold Office statement contains an ink picture of the building on the back.cottage, miners, gold sale notes for nicholas bolle, bank of victoria - eaglehawk branch, bank of new south wales, bank of australasia, bank of australasia gold office, messrs harrison & bashton, derbyshire reef, r. h. andrews -
Tatura Irrigation & Wartime Camps Museum
Lathe (Model)
"This is a rough model of the woodturning lathe Kurt Beilharz built from scrap as a 17 year old in Camp 3, Tatura. The drive wheel was a hollow redgum block from the firewood supply. The shaft was a 1/2" water pipe, the bearings of the spindle were 3/4" water pipe with tooth paste tubes melted into and honed out for the spindle. They had holes for oiling. The drive belt came from my Mother's sewing machine. I used screws in the model, but in reality bolts were used, which were bought as well as the framing timber"Wooden model of a lathe made and used at Camp 3. Triangular upright frame with a hollow drive wheel, driven by a piece of wire with a handle on one end. Drive belt is a piece of fine cord.lathe, model, beilharz, k, camp 3, tatura, ww2 camp 3, handcrafts, models -
Ballarat Heritage Services
Photograph - Black and White, Butter Sculpture, 1923
The Fisher family lived at Waterloo farm, Smythe's Road, near Ballarat. Alice Russell Shaw the daughter of Jessie Black Hamilton and John Shaw, married Albert Fisher in 1909 and had 10 children by him. They lived at Waterloo farm, Smythe's Road. Alice Russell Fisher (Shaw) was known as 'Queenie' Fisher. This family farmed in the Smythe's area for many years. They produced fine milk and butter. Jean, their second eldest child recalled that when they made the butter sculptures they used plenty of salt so that it wouldn't melt. They won first prizes at the Ballarat Show for the butter sculptures.It is a rare example of home industry and creative endeavour.Two black and white photographs that have been laminated.nonebutter sculpture, smythe's road, smythes, ballarat show, shaw, fisher, hamilton -
Ballarat Heritage Services
Photograph - Black and White, Smythe's Road School 1923, 1923
The Fisher family lived at Waterloo farm, Smythe's Road, near Ballarat. Alice Russell Shaw the daughter of Jessie Black Hamilton and John Shaw, married Albert Fisher in 1909 and had 10 children by him. They lived at Waterloo farm, Smythe's Road. Alice Russell Fisher (Shaw) was known as 'Queenie' Fisher. This family farmed in the Smythe's area for many years. They produced fine milk and butter. Jean, their second eldest child recalled that when they made the butter sculptures they used plenty of salt so that it wouldn't melt. They won first prizes at the Ballarat Show for the butter sculptures.Photocopy of original photographSmythe's Rd School. Brother Ed has a letter in his pocket. Joyce and Mary dressed alike in front. Others were Una Kent, Rose Owen, Elenor Egan, George Fletcher. Be about 1923-24 fisher, smythe's road school, smythe's road, school, egan, owen, kent, hamilton, shaw, ballarat, waterloo farm -
Ballarat Heritage Services
Photograph - Photograph - Black and White, Waterloo Farm, Smythe's Road, uk
The Fisher family lived at Waterloo farm, Smythe's Road, near Ballarat. Alice Russell Shaw the daughter of Jessie Black Hamilton and John Shaw, married Albert Fisher in 1909 and had 10 children by him. They lived at Waterloo farm, Smythe's Road. Alice Russell Fisher (Shaw) was known as 'Queenie' Fisher. This family farmed in the Smythe's area for many years. They produced fine milk and butter. Jean, their second eldest child recalled that when they made the butter sculptures they used plenty of salt so that it wouldn't melt. They won first prizes at the Ballarat Show for the butter sculptures.Llaminated sepia photograph.nonewaterloo farm, fisher, hamilton, shaw, smythe's road, ballarat, farm, farmhouse -
Flagstaff Hill Maritime Museum and Village
Tool - Bullet Mould, From 1600s to early 19th century
Musket balls are the ammunition used in muskets the weapons used during the English and American Civil Wars. The balls could be made from any metal alloy, but many were made from lead. Lead can be melted at reasonably low temperatures and so lead musket balls could be made over a camp fire. Lead could be readily sourced from such places like church roofs or even coffins, and recast from old musket balls, so it was an easy material to work with while preparing for battle. The soldier would carry a crucible in which to melt the lead, he would put the material into it and place it over the fire until it had formed into a liquid. Musket ball moulds like the subject item, had a small hole above one of the domes where the liquid could be poured into once the two domes were closed together. The soldier would wait until it cooled then opened the mould to reveal a solid lead ball inside. Because these were cast in halves even though pressed together, there would always be a small amount of liquid lead leakage which would form a thin crust around the ball. These needed to be filed off before being used inside a musket, so some soldiers would pop a few in their mouths and roll them around, chewing off the excess until the ball was smooth. The obvious downside to this method is that lead is poisonous. A tool used to make ammunition for black powder firearms either muskets or pistols from the early part of the 18th to mid 19th century. After this time enclosed brass cartridges that held the propellent powder and bullet were starting to come into wide spread use, negating the need for a firearm to first have black powder placed in a barrel then the ball rammed on top and finally the firearm primed with powder or a percussion cap.Musket rifle/ pistol bullet mold. Makes .50 -caliber- round balls with a sprew cutter to cut off excess lead.Marked 50flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, shot pliers, lead shot, shot, armoury, firearms, bullet, cast bullet, lead ball, lead shot, scissor mould -
City of Moorabbin Historical Society (Operating the Box Cottage Museum)
Sewing Equipment, reel of nylon thread, c1950
Nylon is a thermoplastic, silky material, first used commercially in a nylon-bristled toothbrush (1938), followed more famously by women's stockings ("nylons"; 1940) after being introduced as a fabric at the 1939 New York World's Fair. Nylon was intended to be a synthetic replacement for silk and substituted for it in many different products after silk became scarce during World War II. It replaced silk in military applications such as parachutes and flak vests, and was used in many types of vehicle tyres. Nylon is clear and colourless, or milky, but is easily dyed. Multi-stranded nylon cord and rope is slippery and tends to unravel. The ends can be melted and fused with a heat source such as a flame or electrode to prevent this.A wooden reel of ' BLONDAL' Nylon sewing thread 100ydsBLONDAL 100ydsmoorabbin, brighton, early settlers, pioneers, cheltenham, dressmaking, craftwork, nylon thread, blondal pty ltd -
Flagstaff Hill Maritime Museum and Village
Equipment - Suppository Mould
Before factory production became commonplace in medicine, dispensing was considered an art and pill and suppository machines such as these were a vital component of any chemist’s collection. This mould dates back to the days when the local chemist or apothecary bought, sold, and manufactured all his own drugs and medicines to everybody who lived within the local community. In Victorian times, there was no such thing as off-the-shelf medicine. Every tablet, pill, suppository, ointment, potion, lotion, tincture and syrup to treat anything from a sore throat to fever, headaches or constipation, was made laboriously by hand, by the chemist. Some medicines are formulated to be used in the body cavities: the suppository (for the rectum), the pessary (for the vagina) and the bougie (for the urethra or nose). History Suppositories, pessaries and bougies have been prescribed for the last 2000 years but their popularity as a medicinal form increased from around 1840 - suppositories for constipation, haemorrhoids and later as an alternative method of drug administration, pessaries for vaginal infections and bougies for infections of the urethra, prostate, bladder or nose. Manufacture The basic method of manufacture was the same for each preparation, the shape differed. Suppositories were "bullet" or "torpedo" shaped, pessaries "bullet" shaped but larger and bougieslong and thin, tapering slightly. A base was required that would melt at body temperature. Various oils and fats have been utilised but, until the advent of modern manufactured waxes, the substances of choice were theobroma oil (cocoa butter) and a glycerin-gelatin mixture. The base was heated in a spouted pan over a water-bath until just melted. The medicament was rubbed into a little of the base (usually on a tile using a spatula) and then stirred into the rest. The melted mass was then poured into the relevant mould. Moulds were normally in two parts, made from stainless steel or brass (silver or electroplated to give a smooth surface). To facilitate removal the moulds were treated with a lubricant such as oil or soap solution. To overcome the difficulty of pouring into the long, thin bougie mould, it was usual to make a larger quantity of base, to partially unscrew the mould, fill with base and then screw the two halves of the mould together thus forcing out the excess. When cool, any excess base was scraped from the top of the mould, the mould opened and the preparations removed, packed and labelled with the doctor's instructions. https://www.rpharms.com/Portals/0/MuseumLearningResources/05%20Suppositories%20Pessaries%20and%20Bougies.pdf?ver=2020-02-06-154131-397The collection of medical instruments and other equipment in the Port Medical Office is culturally significant, being an historical example of medicine from late 19th to mid-20th century.Proctological mould for making suppositories.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, suppositories, medicine, health -
Flagstaff Hill Maritime Museum and Village
Equipment - Suppository Mould
Before factory production became commonplace in medicine, dispensing was considered an art and pill and suppository machines such as these were a vital component of any chemist’s collection. This mould dates back to the days when the local chemist or apothecary bought, sold, and manufactured all his own drugs and medicines to everybody who lived within the local community. In Victorian times, there was no such thing as off-the-shelf medicine. Every tablet, pill, suppository, ointment, potion, lotion, tincture and syrup to treat anything from a sore throat to fever, headaches or constipation, was made laboriously by hand, by the chemist. Some medicines are formulated to be used in the body cavities: the suppository (for the rectum), the pessary (for the vagina) and the bougie (for the urethra or nose). History Suppositories, pessaries and bougies have been prescribed for the last 2000 years but their popularity as a medicinal form increased from around 1840 - suppositories for constipation, haemorrhoids and later as an alternative method of drug administration, pessaries for vaginal infections and bougies for infections of the urethra, prostate, bladder or nose. Manufacture The basic method of manufacture was the same for each preparation, the shape differed. Suppositories were "bullet" or "torpedo" shaped, pessaries "bullet" shaped but larger and bougieslong and thin, tapering slightly. A base was required that would melt at body temperature. Various oils and fats have been utilised but, until the advent of modern manufactured waxes, the substances of choice were theobroma oil (cocoa butter) and a glycerin-gelatin mixture. The base was heated in a spouted pan over a water-bath until just melted. The medicament was rubbed into a little of the base (usually on a tile using a spatula) and then stirred into the rest. The melted mass was then poured into the relevant mould. Moulds were normally in two parts, made from stainless steel or brass (silver or electroplated to give a smooth surface). To facilitate removal the moulds were treated with a lubricant such as oil or soap solution. To overcome the difficulty of pouring into the long, thin bougie mould, it was usual to make a larger quantity of base, to partially unscrew the mould, fill with base and then screw the two halves of the mould together thus forcing out the excess. When cool, any excess base was scraped from the top of the mould, the mould opened and the preparations removed, packed and labelled with the doctor's instructions. https://www.rpharms.com/Portals/0/MuseumLearningResources/05%20Suppositories%20Pessaries%20and%20Bougies.pdf?ver=2020-02-06-154131-397The collection of medical instruments and other equipment in the Port Medical Office is culturally significant, being an historical example of medicine from late 19th to mid-20th century.Proctological mould for making suppositories.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, suppositories, medicine, health -
The Ed Muirhead Physics Museum
Meldometer, Joly
Joly Meldometer The Joly meldometer was created to determine the melting point of minerals. W.E. Wilson, an astronomer and author, stated in 1900 that the Joly meldometer consisted of a ‘a strip of platinum on which minute fragments of any mineral can be placed, while any alteration in its length can be determined by means of a micrometer screw which touches a lever connected with one end of the strip. The strip can be heated by an electric current, and is calibrated by observing the micrometer readings corresponding to the temperatures at which some substances of known melting-points melt’i . One reason why the Joly meldometer was seen as a successful addition to science was the small amount of any substance that it required for testing. Only a minute sample was needed for the instrument to work and so a tiny part could be taken from a delicate item without destroying itii . The instrument was originally manufactured by the Irish company Yeates & Son of Dublin. The Yeates family business was established in the early 1790’s and is thought to have operated until approximately 1922iii . Their business slogan was recorded as ‘Instrument makers to the University’, a slogan which proudly exhibited their relationship with Trinity College, Dublin. The company was located directly opposite Trinity College, the place where the Joly meldometer was created. Working in such close proximity must have assisted this business relationship. The inventor of this meldometer was Irishman John Joly. Joly was born in 1857 at the Church of Ireland Rectory, Hollywood House. His education led him to Trinity College Dublin where, by 1891, he had obtained a Bachelor of Engineering degree as well as a Doctorate of Science. The entirety of his working life appears to have taken place at Trinity College although he is known to have travelled in order to consult with other scientists such as the world renowned Sir Ernest Rutherford. The Joly meldometer was used for a variety of different purposes, with scientists often adapting the instrument to suit their own needs. For instance, the previously mentioned astronomer W.E. Wilson adapted the meldometer to assist him in measuring the radiation of the suniv . Joly used his device in an attempt to ascertain the age of the earth. In 1913, along with Sir Rutherford, Joly came to the conclusion that the earth was approximately 400 million years old. They did this by analysing the decay of radioactivity in minerals. According to our present knowledge of the earth this was a much more accurate date than the dates Joly had previously derived. He had first thought that the earth was 97 million years old due to the volume of sodium in the oceans. Joly’s second analysis of the topic had resulted in the age of 80 million years. This figure was based on the accumulation of sediment. Apart from designing his meldometer, Joly is also remembered for his work with colour photography. In 1894 Joly discovered a method for creating colour photographs from a single platev . He also studied the use of radiation as a treatment for cancer and persuaded the Royal Dublin Society to establish the Radium Institute to assist hospitals. In 1933 Joly passed away at the age of seventy-six. Jacqueline Eager Student Projects Placement, Cultural Collections 2005 iMollan, Charles, Irish National Inventory of Scientific Instruments, Samton Limited, 1995, p. 302. iiJoly, John, 'On the determination of the melting points of minerals, Part 1. Uses of the meldometer', Proceedings of the Royal Irish Academy, Vol. 2., 1891. iiiInstitute for Learning Technologies, "Stephan Mitchell Yeates' http://www.ilt.columbia.edu/projects/bluetelephone/html/yeates.html, accessed on 04.10.2005 ivMollan, Charles, Irish National Inventory of Historic Scientific Instruments, op cit. vMollan, Charles, The Mind and the Hand: Instruments of Science 1685-1932, Samton Limited, Dublin, 1995, p. 34.The following from #2975 in UDE UNIVERSITY COLLEGE DUBLIN ENGINEERING list in the “Irish National Inventory of Historical Scientific Instruments” by Charles Mellon (P/C in file for Cat no 272. “....meldometer as an instrument ‘for the purpose of finding the melting-points of minerals, hence its name. As used by him (Joly), it consists of a strip of platinum,on which minute fragments of any mineral can be placed, while any alteration in its length can be determined by means of a micrometer screw which touches a lever connected with one end of the strip. The strip can be heated by an electric current, and is calibrated by observing the micrometer readings corresponding to the temperatures at which some substances of known melting-points melt’.” Ref. : J. Joly, Proc. Roy. Irish Acad. 3rd series vol 2 (1891),38-64.