T. & C. Clark & Company Limited was based at Shakespeare Foundry in Wolverhampton England and was founded in 1795 by Thomas and Charles Clark. The company grew to be one of the largest iron foundries in Wolverhampton and were pioneering in the manufacture of enamelled cast iron cookware and sanitary wares. The company's product range included thousands of items, both domestic and industrial. T. & C. Clark were pioneers in the use of enamelled cast ironware, after taking out a patent in 1839 guaranteeing their products to be free of lead or arsenic. The company became the largest employer in Wolverhampton employing between 600 to 700 people.The item is significant as it was used as a domestic kitchen item to boil water safely without the concern that the metal may contain lead or arsenic as earlier cooking utensils had. Cast Iron Kettle straight metal handle painted black. Rusted inside and holed in the bottom, "T C Clark England" RD665876, 3 quarts No3" and other unreadable inscriptions.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, kettle, iron kettle, kitchen ware, t c clark, enamel cook ware, cast iron kettle

Over 1500 pottery firms have operated in Stoke-on-Trent since the early 1700's Some lasted only a few years and some for well over 200 years. Some potters built and owned their own works. Many others were tenants in works built by others and a succession of potters occupied the same works. It was also a common practice for a works to be split between two different pottery companies or for a larger manufacturer to let out a smaller section of his works to a potter who would make wares which were not of interest to the pot works owner. Some potters purchased 'blanks' from other manufacturers and put their own decoration on them some items have two back stamps some have no marks at all. This adds to the confusion and frustration of trying to trace details of a particular manufacturer such as the subject item.Item at this time appears to be an early example of British ironstone earthenware that could possibly be a Staffordshire piece but cannot be associated with an historical event, person or manufacturer, provenance is therefore unknown, as a result the subject item assessed as a collection asset given it was produced before 1950.Cheese dome round white ironstone, with flat base and a bell lid with ornate handle white Decorative relief floral design date letter "A" impressed in baseflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, ceramic dish, dish, kitchen ware, covered dish, ironstone cheese dome

William Hutton & Sons were manufacturing silversmiths founded in 1800 in Birmingham with company transferring to Sheffield in 1832. William Hutton had established the firm and with the move to Sheffield, they also became platers having licensed the electroplating technique from the firm of Elkington's. This gave them much early success in the field of electroplating. William's son William Carr Hutton continued the business after his father's death using the same business name until 1864 it was then changed to William Hutton & Son when William Carr's son Herbert Hutton joined him. When William Carr died in 1865, the firm name was again changed to William Hutton & Sons when Herbert's brothers (James & Robert) joined the company. They opened a London showroom in Holborn in 1863 which they moved to Farringdon Road, in 1891 operating until 1918. Hutton's had developed a new nickel alloy that was good for plating and in the late 1800s becoming known as British Plate. They sent their machine-made silver flatware from Sheffield to be hallmarked in London. Hutton's went on to acquire Rupert Favell & Co in 1893 and also registered as a limited company as William Hutton & Sons Ltd in 1902. The Hutton's had also bought Creswick & Co and had started to use their crossed arrows trademark. Hutton's became renowned for the quality of their Arts & Crafts silverware items at the turn of the 19th and 20th centuries. In 1930 Hutton's were taken over by James Dixon & Sons. A significant item that was made around the time electroplating was being developed as a means of producing quality utilitarian items in quantity for domestic use that we're able to be purchased by working-class people.Cruet set of silver plated frame with upright handle protruding from tray base. Holds 5 containers of varying shape and size; 3 have metal lids. Inscription is on the base. Some containers have contents in them.On base "WMH&S" and "01548" etc.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, cruet set, condiments set, kitchen ware, electroplate, britannia metal, w m hutton

Cheese Dish, square shape with cut corners, white ceramic, 2 parts; base with cut corners and lid with decorative handle and air hole.flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, cheese dish, covered cheese dish, kitchen ware

An unusual item believed to have been made by carving from a solid piece of sandstone for domestic use no history or manufacturing provenance currently available item could have been made as a one off.The subject item at this time cannot be associated with an historical event, person or place, provenance is unknown, item assessed as a collection asset as it is believed to have been produced before 1950.Sandstone cooler round barrel shape. 2 equal sections. Top section has small wooden knob for lifting.Noneflagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, cooler, kitchen ware, sandstone cooler, kitchen item, ice bucket

It appears that the earliest form of child's high chair is attributed to Jonathan Jacobs (1845-1919) a cabinet maker of Browningsville, Pennsylvania USA around the mid to late 19th century. However, children’s chairs from the 18th century and earlier were being used and are in many museum collections around the world that show woodworkers were adapting chair designs for younger users in Europe and America at this time.An early children's wooden high chair probably made in America around 1890-1900. Many American manufactures made this type of wooden high chair called an “Eastlake” style and many did not mark their work so it is difficult to determine the subject items exact provenance. A significant item giving a snapshot into the evolution of children's furniture and domestic life during the late Victorian era.Convertible pressed back Victorian era high chair with convertible frame, cast iron wheels, Carved picture of a child to back of seatflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, high chair, potty chair, baby furniture, kitchen furniture

A mass produced unbranded utilitarian item made for domestic use no history or provenance currently available, design indicates item made before 1950Item at this time cannot be associated with an historical event, person or place, provenance is unknown, item assessed as a collection asset as made prior to 1950.Stoneware mixing bowl round cream with pouring lip and decorative scallop relief around bodyNoneflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, bowl, ceramic bowl, pouring bowl, kitchen ware, cooking ware, ironstone bowl, salt glazed, mixing bowl

Over 1500 pottery firms have operated in Stoke-on-Trent since the early 1700's - Some lasted only a few years and some for well over 200 years. Some potters built and owned their own works. Many others were tenants in works built by others and a succession of potters occupied the same works. It was also a common practice for a works to be split between two different pottery companies or for a larger manufacturer to let out a smaller section of his works to a potter who would make wares which were not of interest to the pot works owner. Some potters purchased 'blanks' from other manufacturers and put their own decoration on them some items have two back stamps some have no marks at all. This adds to the confusion and frustration of trying to trace details of a particular manufacturer such as the subject item.A mid to late 19th century ironstone jug with no makers markings only a date letter therefore at this time cannot be associated with an historical event, person or place, provenance regards maker is unknown, item assessed as a collection asset given it was produced before 1950.Jug, white Earthenware with leaf decoration around the base, handle and lip.Letter "E" date mark for 1881flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, ceramic jug, drink ware, kitchen ware, table ware, ceramic, pottery, milk jug, cream jug, ironstone jug

W Baker and Co-produced many different types of pottery at their Fenton Potteries, Stoke-on-Trent, Staffordshire England. The company was established in 1790 by Ralph Bourne and William Baker the company was working at capacity by the end of the century. By the late 1820's Bourne and Baker, in partnership with John Bourne, had acquired additional works opposite the first in 1833. With the deaths of John Bourne and William Baker, the partnership was dissolved, and then for a short time, the business was carried on by Ralph Bourne and William Baker junior and John Baker. By the early 1840s, William Baker was running it alone and was then using 'machinery for the potteries manufacturing operations in addition to the mill that was producing the raw clay. The business was subsequently carried on by William Baker and Company that were known for the making of printed, sponged, and pearl-white granite ware for export in the early 1880s at the Fenton works between Manor and Fountain Streets. The original works on the south side of City Road were by then an en-caustic tile works, apparently still in the hands of the Baker family. The pottery works flourished under William Baker’s management and by the middle of the nineteenth century with almost 500 employees was the biggest firm in Fenton. An early piece of ironstone Staffordshire pottery now a collector's item showing the types of domestic items that were exported from England to its colonies towards the end of the nineteenth century and into the beginning of the twentieth.Water pitcher ironstone ceramic white with raised embossed Lilly of the valley decoration around handle and lip sections. Marked on bottom, "Royal stone china, Baker and Co, England" with emblem of lion, crown and unicornflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, jug, kitchen utensil, kitchen ware, water pitcher

Lusterware is a type of pottery or porcelain with a metallic glaze that gives the effect of iridescence. The technique on pottery was first developed in Mesopotamia (modern Iraq) in the early 9th century. It is produced by metallic oxides in an overglaze finish, which is given a second firing at a lower temperature in a "muffle kiln", or a reduction kiln, excluding oxygen. The Lusterware effect is a final coating applied over the ceramic glaze, and fixed by a light second firing, applying small amounts of metallic compounds (generally of silver or copper) mixed with something to make it paintable (clay or ochre). This is then fired in a reducing atmosphere at a temperature high enough to "soften" the glaze from the first firing, and break down the metallic compounds, leaving a very thin ("perhaps 10 or 20 atoms thick") layer that is fused with the main glaze, but is mainly metal. Lusterware normally only uses one colour per piece, and the range is limited a "gold" derived from silver compounds was historically the most common. The process has always been expensive and rather unpredictable, always requiring two firings, and often the use of expensive materials such as silver and platinum. The very thin layer of luster is often delicate, and many types of Lusterware are easily damaged by scratching removing the metallic layer, or by contact with acids. Lusterware has therefore always been for display and occasional use, although by the 19th century it could be relatively cheap. Many pieces show the luster effect only working correctly on parts of the surface, or not at all. An item probably made in Staffordshire UK where this type of pottery was popular in the late 19th century by unknown pottery as the subject item has no marks. The teapot at this time cannot be associated with a historical event, person, or place, provenance regards manufacture is unknown, item assessed as a collection asset given it was produced before 1950.Teapot ceramic ornate copper lusterware abstract floral design handle has a protruding sculptured bird for thumb grip. Nonewarrnambool, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, teapot, tea set, kitchen ware, ceramic, lusterware, pottery, staffordshire uk, pottery finishes

Tin, "Choicest Nectar Tea" is an example of retail packaging, for domestic goods, the tin was made by J Marsh and Sons, Melbourne, for John Connell & Co Ltd, Melbourne, Victoria, Australia, 1900-1940Item at this time cannot be associated with an historical event, person or place, provenance is unknown, item assessed as a collection asset.Container; tea caddy for "Nectar Tea" brand, 1 lb. Packed by John Connell and Co Ltd, Melbourne. Blue and white vertical stripe decoration. On label "The Nectar Tea Caddy" and "Nectar, the finest tea the world produces, is a blend of the Choicest Pure Leafed Teas from the Gardens of Ceylon, India, Java"flagstaff hill, warrnambool, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, tea canister, tea caddy, tea tin, container, kitchen storage, food storage, food, nectar tea, john connell, melbourne, j march & sons, john connell & co ltd

T. & C. Clark & Company Limited was based at Shakespeare Foundry in Wolverhampton England and was founded in 1795 by Thomas and Charles Clark. The company grew to be one of the largest iron foundries in Wolverhampton and were pioneering in the manufacture of enamelled cast iron cookware and sanitary wares. The company's product range included thousands of items, both domestic and industrial. T. & C. Clark were pioneers in the use of enamelled cast ironware, after taking out a patent in 1839 guaranteeing their products to be free of lead or arsenic. The company became the largest employer in Wolverhampton employing between 600 to 700 people.The item is significant as it was used as a domestic kitchen item to cook food safely without the concern that the metal interior may contain lead or arsenic as earlier cooking utensils had. Pressure cooker, cast iron , pressure vent on top. Removable lid held down by 3 riveted heart shaped clips where they join the base. Metal drop down carry handle.T & C Clarke and Co. on base & size 2 1/2 gallonflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, pressure cooker, cook ware, cooking pot, clarke and co

T. & C. Clark & Company Limited was based at Shakespeare Foundry in Wolverhampton England and was founded in 1795 by Thomas and Charles Clark. The company grew to be one of the largest iron foundries in Wolverhampton and were pioneering in the manufacture of enamelled cast iron cookware and sanitary wares. The company's product range included thousands of items, both domestic and industrial. T. & C. Clark were pioneers in the use of enamelled cast ironware, after taking out a patent in 1839 guaranteeing their products to be free of lead or arsenic. The company became the largest employer in Wolverhampton employing between 600 to 700 people.The item is significant as it was used as a domestic kitchen item to boil water safely without the concern that the metal may contain lead or arsenic as earlier cooking utensils had. Cast Iron Kettle no lidT and C Clark and Co, London. No. 2, 5 pints capacityflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, kettle, cooking pot, cook ware, kitchen ware, cast iron kettle, t c clark ltd

A butter churn is a device used to convert cream into butter. This is done through a mechanical process, frequently via a pole inserted through the lid of the churn, or via a crank used to turn a rotating device inside the churn. The use of butter is mentioned in biblical works and the earliest butter churn vessels belonging to Beersheba culture in Israel were found in Bir Abu Matar going back to Chalcolithic period between 6500–5500 BC. The butter churn in Europe may have existed as early as the 6th century AD, In the European tradition, the butter churn was primarily a device used by women, and the churning of butter was an essential responsibility along with other household chores. In earlier traditions of butter making, nomadic cultures placed milk in skin bags and produced butter either by shaking the bag manually, or possibly by attaching the bag to a pack animal, and producing butter simply through the movement of the animal. An item used to make butter in a domestic situation by turning a handle until the cream inside has turned to butter.Butter churn, wooden, lid pieces screwed or nailed together. Brass bearing on side with iron turning handle.Handle marked 28204 no other marks to indicate manufacturer or date of productionflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, churn, butter churn, wooden churn, butter making, food, dairy, kitchen utensil

T & C Clark & Company Limited, based at Shakespeare Foundry, was founded in 1795 by Thomas and Charles Clark and grew to be one of the largest iron foundries in Wolverhampton. The firm was the pioneers of Enamelled Cast ironware and the founder Charles Clerk went on to became mayor of Wolverhampton in 1860 after also serving as a Councilor, Alderman, and later Chief Magistrate. The company exhibited many products at the International Exhibition of 1862 at South Kensington, alongside the gardens of the Royal Horticultural Society. The company was also awarded the silver medal for its products at the International Paris Exhibition in 1878. The company's product range included thousands of items, both domestic and industrial. T & C Clark pioneered the use of enamelled cast ironware, after taking out a patent in 1839 guaranteed to be free of lead or arsenic. In the late 1940s and 1950s the company produced acid-resisting enamelled cast iron boiling pans; steam-jacketed pans; stills; square and rectangular tanks; open and closed mixing vessels; flanged pipes; bends and tees; laboratory equipment; small scale plant; evaporating bowls; beakers; sulphonates; and glass-lined mild steel tanks for beer, mineral water, and food. The company is listed as enamelled chemical plant manufacturers in Kelly's 1962 Wolverhampton Directory, but within a few years, the company had ceased trading.The item is significant as it was used as a domestic kitchen or camp fire item used to cook food safely without the concern that the metal may contain lead or arsenic as earlier cooking utensils had. T C Clark innervates the first manufacturing process of cast iron cook ware to have enamel lining in his products to alleviate the possibility of lead or arsenic contamination of food.Oval cast iron boiler or cooking pot, with lid, pot is oval shaped lid is dented and handle buckled.Inscription on base "Clark & Co Patent", "Best Quality", "9 Gallons" and a Trade Mark of a "C" inside two triangles to side of potflagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, cooking pot, stew pot, food, kitchen utensil, shakespeare foundry, tc clark

The Royal Doulton company began as a partnership between John Doulton, Martha Jones, and John Wattis an English ceramic and home accessories manufacturer founded in 1815. Operating originally in Vauxhall, London, later moving to Lambeth, in 1882 it opened a factory in Burslem, Stoke-on-Trent, in the centre of English pottery. The business was specialised in making salt-glazed stoneware articles, including utilitarian or decorative bottles, jugs and jars, much of it intended for inns and pubs. The backbone of the business was a wide range of utilitarian wares, mostly stone wares, including storage jars, tankards and the like, and later extending to pipes for drains, lavatories and other bathroom ceramics. From 1853 to 1902 its wares were marked Doulton & Co., then from 1902, when a royal warrant was given, Royal Doulton. The company always made some more decorative items, initially still mostly stoneware, and from the 1860s the firm made considerable efforts to get a reputation for design, in which it was largely successful, as one of the first British makers of art pottery. Initially, this was done through artistic stoneware's made in Lambeth, but in 1882 the firm bought a Burslem factory, which was mainly intended for making bone china table wares and decorative items. An early utilitarian stoneware item made by a well-known company that specialised in making salt-glazed items that later earned a reputation for making stoneware art objects.Ink bottle, brown salt glazed stoneware with narrow mouth tamped Doulton Lambeth cork missing. Stamp impressed into clay on edge "(2)32 / Doulton / Lambeth" flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, flagstaff hill maritime village, great ocean road, stoneware, stoneware jar, doulton lambeth, kitchen ware, salt glazed

T. & C. Clark & Company Limited was based at Shakespeare Foundry in Wolverhampton England and was founded in 1795 by Thomas and Charles Clark. The company grew to be one of the largest iron foundries in Wolverhampton and were pioneering in the manufacture of enamelled cast iron cookware and sanitary wares. The company's product range included thousands of items, both domestic and industrial. T. & C. Clark were pioneers in the use of enamelled cast ironware, after taking out a patent in 1839 guaranteeing their products to be free of lead or arsenic. The company became the largest employer in Wolverhampton employing between 600 to 700 people.The items are significant as they were used as domestic kitchen items to cook food safely without the concern that the metal may contain lead or arsenic as earlier cooking utensils had. This is due to the enamel lining pioneered by TC Clark Pot set; set of three pots. Iron pots, enamelled on the inside with a pouring lip and capacity label on each pot. Pot set a capacity label on each pot. Three pots in set labelled 17 qts and 14 qts on base and flat spot opposite lip - handle for pouring. 12 qts is missing flagstaff hill, warrnambool, shipwrecked coast, flagstaff hill maritime museum, maritime museum, shipwreck coast, flagstaff hill maritime village, great ocean road, pot set, cooking pot, pouring pot, cook ware

The Process of Making Pottery Decorating, Firing, Glazing, Making, Technical There is a rhythm and flow to clay. It can’t be done all at once! Even the making process! It can take weeks to get everything done, especially if you can only work on your pottery once a week! Even though we have three hour classes, it’s often just not enough time! Here is an overview of some of the processes so you have a bit more grasp on some of the technical stuff! Step One – Design There are SO many ideas out there for making stuff in clay! From delicate porcelain jewellery, through to heavy sculptural work and everything in between. Deciding your direction is sometimes not that easy – when you first start, try everything, you will naturally gravitate to the style that you enjoy! The options and variations are endless and can get a wee bit overwhelming too! Check in with me before you start to ensure your ideas will work, what order you might do things, how you could achieve the look you are seeking and any other technical data required! Step Two – Making Clay is thixotropic. This means that as you work with it, the clay first gets sloppier and wetter, before is begins to dry in the atmosphere. For most things, you simply can’t do all parts of the project at once. An example of work order might look like: Get last weeks work out from the shelves Prepare clay for today’s work – roll your clay, prepare balls for throwing, make the first stage of a pinch pot) Clean up last week’s work and put it on the shelf for bisque firing Check that you have any glazing to do – and do enough of it that you will have time to finish your main project Do the next step of your next project – there might be a further step that can’t be complete immediately, in that case, wrap your work well and put onto the shelves. Letting your work rest for a while can really help keep your work clean and professional looking. Many things require bagging under plastic to keep it ready for work the next week – put your name on the outside of the bag so you can find your work easily. We have stickers and markers. Consider how you want to decorate your work – coloured slip can be applied at a fairly wet stage (remembering that it will make your work even wetter!). Trying to apply slip to dry clay won’t work! If you want to do sgraffito – you will need to keep the work leather hard (a state of dryness where you can still work the clay with a little effort and a little water and care). Step Three – Drying Most of the time your work can go into the rack uncovered to let it dry out for the following week. If you want to continue forming or shaping you will need to double bag your work – put your work on a suitable sized bat and put the bat in a bag so the base of the bag is under the bat, then put another bag over the top of the work and tuck the top of the bag under the bat. If you want to trim (or turn) your thrown work the following week, it should also be double bagged. If your work is large, delicate, or of uneven thicknesses, you should lightly cover your work for drying. When considering the drying process, bare in mind the weather, humidity and wind! The hotter and dryer, the faster things dry and work can dry unevenly in the shelves – this can lead to cracking – another time to lightly cover your work for drying. Step Four – Trimming and Cleaning Up Your work is dry! It is called greenware now and it is at it’s most fragile! Handle everything with two hands. I often refer to soft hands – keep everything gentle and with your fingers spread as much as possible. Try to not pick up things like plates too much, and always with both hands! Before your work can be bisque fired it should be “cleaned up”. You work won’t go into the kiln if it has sharp edges – when glazed, sharp edges turn into razor blades! Use a piece of fly wire to rub the work all over – this will scratch a little so be light handed. Use a knife or metal kidney to scrape any areas that require a bit more dynamic treatment than the fly wire offers! Finally, a very light wipe over with a slightly damp sponge can help soften and soothe all of your edges and dags! Trimming thrown work: If you are planning to trim (or turn) your thrown work (and you should be), make sure you bag it well – your work should be leather hard to almost dry for easiest trimming. Use this step to finish the work completely – use a metal kidney to polish the surface, or a slightly damp sponge to give a freshly thrown look. Wipe the sponge around the rim after trimming, and check the inside of the pot for dags! Trimming slip cast work: Usually I will trim the rims of your work on the wheel the following day to make that stage easier, however you will still need to check your work for lumps and bumps. Last but not least – check that your name is still clearly on the bottom of your work. Step Five – Bisque Firing When the work is completely dry it can go into the bisque kiln. The bisque kiln is fired to 1000°C. This process burns off the water in the clay as well as some of the chemically bound water. The structure of the clay is not altered that much at this temperature. Inside the bisque kiln, the work is stacked a little, small bowl inside a larger bowl and onto a heavy plate. Smaller items like decorations or drink coasters might get stacked several high. Consideration is paid to the weight of the stack and shape of the work. A bisque kiln can fire about one and a half times the amount of work that the glaze kiln can fire. The firing takes about 10 hours to complete the cycle and about two days to cool down. Once it has been emptied the work is placed in the glaze room ready for you to decorate! Step Six – Glazing Decorating your work with colour can be a lot of fun – and time consuming! There are three main options for surface treatment at this stage: Oxide Washes Underglazes Glazes Washes and underglazes do not “glaze” the work – It will still need a layer of glaze to fully seal the clay (washes don’t need glaze on surfaces not designed for food or liquid as they can gloss up a little on their own). Underglazes are stable colourants that turn out pretty much how they look in the jar. They can be mixed with each other to form other colours and can be used like water colours to paint onto your work. Mostly they should have a clear glaze on top to seal them. Oxides are a different species – the pink oxide (cobalt) wash turns out bright blue for instance. They don’t always need a glaze on top, and some glazes can change the colour of the wash! The glazes need no other “glaze” on top! Be careful of unknown glaze interactions – you can put any combination of glaze in a bowl or on a plate, but only a single glaze on the outside of any vertical surface! Glazes are a chemical reaction under heat. We don’t know the exact chemicals in the Mayco glazes we use. I can guess by the way they interact with each other, however, on the whole, you need to test every idea you have, and not run the test on a vertical surface! Simply put, glaze is a layer of glass like substance that bonds with the clay underneath. Clay is made of silica, alumina and water. Glaze is made of mostly silica. Silica has a melting point of 1700°C and we fire to 1240°C. The silica requires a “flux” to help it melt at the lower temperature. Fluxes can be all sorts of chemicals – a common one is calcium – calcium has a melting point of 2500°C, however, together they both melt at a much lower temperature! Colourants are metal oxides like cobalt (blue), chrome (green through black), copper (green, blue, even red!), manganese (black, purple and pink) iron (red brown), etc. Different chemicals in the glaze can have dramatic effects. for example, barium carbonate (which we don’t use) turns manganese bright pink! Other elements can turn manganese dioxide brown, blue, purple and reddish brown. Manganese dioxide is a flux in and of itself as well. So, glazes that get their black and purple colours, often interact with other glazes and RUN! Our mirror black is a good example – it mixes really well with many glazes because it fluxes them – causes them to melt faster. It will also bring out many beautiful colours in the glazes because it’s black colouring most definitely comes from manganese dioxide! Glaze chemistry is a whole subject on it’s own! We use commercial Mayco glazes on purpose – for their huge range of colour possibilities, stability, cool interactions, artistic freedom with the ability to easily brush the glazes on and ease of use. We currently have almost 50 glazes on hand! A major project is to test the interactions of all glazes with each other. That is 2,500 test tiles!!!! I’m going to make the wall behind the wheels the feature wall of pretty colours! Step Seven – Glaze (Gloss or sometimes called “Glost”) Firing Most of the time this is the final stage of making your creation (but not always!) The glaze kiln goes to 1240°C. This is called cone 6, or midrange. It is the low end of stoneware temperatures. Stoneware clays and glazes are typically fired at cone 8 – 10, that is 1260 – 1290°C. The energy requirement to go from 1240°C to 1280°C is almost a 30% more! Our clay is formulated to vitrify (mature, turn “glass-like”) at 1240°, as are our glazes. A glaze kiln take around 12 hours to reach temperature and two to three days to cool down. Sometimes a third firing process is required – this is for decoration that is added to work after the glaze firing. For example – adding precious metals and lustres. this firing temperature is usually around 600 – 800°C depending upon the techniques being used. There are many students interested in gold and silver trims – we will be doing this third type of firing soon! After firing your work will be in the student finished work shelves. Remember to pay for it before you head out the door! There is a small extra charge for using porcelain clay (it’s more than twice the price of regular clay), and for any third firing process! Once your work has been fired it can not turn back into clay for millennia – so don’t fire it if you don’t like it! Put it in the bucket for recycling. https://firebirdstudios.com.au/the-process-of-making-pottery/ The bowl is an example of kitchenware used in the 19th century and still in use today.Bowl white ceramic. Crack on side. Badly stained.Backstamp very faint and unable to be read.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, mixing bowl, food preparation, kitchen equipment, ceramic

Some very early tables were made and used by the Ancient Egyptians around 2500 BC, using wood and alabaster. They were often little more than stone platforms used to keep objects off the floor, though a few examples of wooden tables have been found in tombs. Food and drinks were usually put on large plates deposed on a pedestal for eating. The Egyptians made use of various small tables and elevated playing boards. The Chinese also created very early tables in order to pursue the arts of writing and painting, as did people in Mesopotamia, where various metals were used. The Greeks and Romans made more frequent use of tables, notably for eating, although Greek tables were pushed under a bed after use. The Greeks invented a piece of furniture very similar to the guéridon. Tables were made of marble or wood and metal (typically bronze or silver alloys), sometimes with richly ornate legs. Later, the larger rectangular tables were made of separate platforms and pillars. The Romans also introduced a large, semicircular table to Italy, the mensa lunata. Plutarch mentions use of "tables" by Persians. Furniture during the Middle Ages is not as well known as that of earlier or later periods, and most sources show the types used by the nobility. In the Eastern Roman Empire, tables were made of metal or wood, usually with four feet and frequently linked by x-shaped stretchers. Tables for eating were large and often round or semicircular. A combination of a small round table and a lectern seemed very popular as a writing table. In western Europe, the invasions and internecine wars caused most of the knowledge inherited from the classical era to be lost. As a result of the necessary movability, most tables were simple trestle tables, although small round tables made from joinery reappeared during the 15th century and onward. In the Gothic era, the chest became widespread and was often used as a table. Refectory tables first appeared at least as early as the 17th century, as an advancement of the trestle table; these tables were typically quite long and wide and capable of supporting a sizeable banquet in the great hall or other reception room of a castle. https://en.wikipedia.org/wiki/Table_(furniture)The table is one of the most important items of furniture used in the home, including the kitchen.Table wooden with 4 wooden turned legs and unvarnished raw wood topNone flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, table, kitchen furniture

A mass produced utilitarian item made for domestic use, there is no history or manufacturing provenance currently available.The subject item at this time cannot be associated with an historical event or person It is believed the item was manufactured in Germany pre World War ll, in the 1930s, as other examples from the period are on a number of internet sale & auction sites. This item is regarded as a collectors piece however information and company history regards the manufacturer "Rebure" has not yet been established. Balance spring scale elongated brass graduation scale to 100 Lbs hook at one end and a ring the otherRebure Pocket Balance. Made in Germany measures from 0 to 100LBSflagstaff hill, warrnambool, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, spring balance scale, rebure scale company, rebure germany, domestic item, kitchen weighing scale

The Process of Making Pottery Decorating, Firing, Glazing, Making, Technical There is a rhythm and flow to clay. It can’t be done all at once! Even the making process! It can take weeks to get everything done, especially if you can only work on your pottery once a week! Even though we have three hour classes, it’s often just not enough time! Here is an overview of some of the processes so you have a bit more grasp on some of the technical stuff! Step One – Design There are SO many ideas out there for making stuff in clay! From delicate porcelain jewellery, through to heavy sculptural work and everything in between. Deciding your direction is sometimes not that easy – when you first start, try everything, you will naturally gravitate to the style that you enjoy! The options and variations are endless and can get a wee bit overwhelming too! Check in with me before you start to ensure your ideas will work, what order you might do things, how you could achieve the look you are seeking and any other technical data required! Step Two – Making Clay is thixotropic. This means that as you work with it, the clay first gets sloppier and wetter, before is begins to dry in the atmosphere. For most things, you simply can’t do all parts of the project at once. An example of work order might look like: Get last weeks work out from the shelves Prepare clay for today’s work – roll your clay, prepare balls for throwing, make the first stage of a pinch pot) Clean up last week’s work and put it on the shelf for bisque firing Check that you have any glazing to do – and do enough of it that you will have time to finish your main project Do the next step of your next project – there might be a further step that can’t be complete immediately, in that case, wrap your work well and put onto the shelves. Letting your work rest for a while can really help keep your work clean and professional looking. Many things require bagging under plastic to keep it ready for work the next week – put your name on the outside of the bag so you can find your work easily. We have stickers and markers. Consider how you want to decorate your work – coloured slip can be applied at a fairly wet stage (remembering that it will make your work even wetter!). Trying to apply slip to dry clay won’t work! If you want to do sgraffito – you will need to keep the work leather hard (a state of dryness where you can still work the clay with a little effort and a little water and care). Step Three – Drying Most of the time your work can go into the rack uncovered to let it dry out for the following week. If you want to continue forming or shaping you will need to double bag your work – put your work on a suitable sized bat and put the bat in a bag so the base of the bag is under the bat, then put another bag over the top of the work and tuck the top of the bag under the bat. If you want to trim (or turn) your thrown work the following week, it should also be double bagged. If your work is large, delicate, or of uneven thicknesses, you should lightly cover your work for drying. When considering the drying process, bare in mind the weather, humidity and wind! The hotter and dryer, the faster things dry and work can dry unevenly in the shelves – this can lead to cracking – another time to lightly cover your work for drying. Step Four – Trimming and Cleaning Up Your work is dry! It is called greenware now and it is at it’s most fragile! Handle everything with two hands. I often refer to soft hands – keep everything gentle and with your fingers spread as much as possible. Try to not pick up things like plates too much, and always with both hands! Before your work can be bisque fired it should be “cleaned up”. You work won’t go into the kiln if it has sharp edges – when glazed, sharp edges turn into razor blades! Use a piece of fly wire to rub the work all over – this will scratch a little so be light handed. Use a knife or metal kidney to scrape any areas that require a bit more dynamic treatment than the fly wire offers! Finally, a very light wipe over with a slightly damp sponge can help soften and soothe all of your edges and dags! Trimming thrown work: If you are planning to trim (or turn) your thrown work (and you should be), make sure you bag it well – your work should be leather hard to almost dry for easiest trimming. Use this step to finish the work completely – use a metal kidney to polish the surface, or a slightly damp sponge to give a freshly thrown look. Wipe the sponge around the rim after trimming, and check the inside of the pot for dags! Trimming slip cast work: Usually I will trim the rims of your work on the wheel the following day to make that stage easier, however you will still need to check your work for lumps and bumps. Last but not least – check that your name is still clearly on the bottom of your work. Step Five – Bisque Firing When the work is completely dry it can go into the bisque kiln. The bisque kiln is fired to 1000°C. This process burns off the water in the clay as well as some of the chemically bound water. The structure of the clay is not altered that much at this temperature. Inside the bisque kiln, the work is stacked a little, small bowl inside a larger bowl and onto a heavy plate. Smaller items like decorations or drink coasters might get stacked several high. Consideration is paid to the weight of the stack and shape of the work. A bisque kiln can fire about one and a half times the amount of work that the glaze kiln can fire. The firing takes about 10 hours to complete the cycle and about two days to cool down. Once it has been emptied the work is placed in the glaze room ready for you to decorate! Step Six – Glazing Decorating your work with colour can be a lot of fun – and time consuming! There are three main options for surface treatment at this stage: Oxide Washes Underglazes Glazes Washes and underglazes do not “glaze” the work – It will still need a layer of glaze to fully seal the clay (washes don’t need glaze on surfaces not designed for food or liquid as they can gloss up a little on their own). Underglazes are stable colourants that turn out pretty much how they look in the jar. They can be mixed with each other to form other colours and can be used like water colours to paint onto your work. Mostly they should have a clear glaze on top to seal them. Oxides are a different species – the pink oxide (cobalt) wash turns out bright blue for instance. They don’t always need a glaze on top, and some glazes can change the colour of the wash! The glazes need no other “glaze” on top! Be careful of unknown glaze interactions – you can put any combination of glaze in a bowl or on a plate, but only a single glaze on the outside of any vertical surface! Glazes are a chemical reaction under heat. We don’t know the exact chemicals in the Mayco glazes we use. I can guess by the way they interact with each other, however, on the whole, you need to test every idea you have, and not run the test on a vertical surface! Simply put, glaze is a layer of glass like substance that bonds with the clay underneath. Clay is made of silica, alumina and water. Glaze is made of mostly silica. Silica has a melting point of 1700°C and we fire to 1240°C. The silica requires a “flux” to help it melt at the lower temperature. Fluxes can be all sorts of chemicals – a common one is calcium – calcium has a melting point of 2500°C, however, together they both melt at a much lower temperature! Colourants are metal oxides like cobalt (blue), chrome (green through black), copper (green, blue, even red!), manganese (black, purple and pink) iron (red brown), etc. Different chemicals in the glaze can have dramatic effects. for example, barium carbonate (which we don’t use) turns manganese bright pink! Other elements can turn manganese dioxide brown, blue, purple and reddish brown. Manganese dioxide is a flux in and of itself as well. So, glazes that get their black and purple colours, often interact with other glazes and RUN! Our mirror black is a good example – it mixes really well with many glazes because it fluxes them – causes them to melt faster. It will also bring out many beautiful colours in the glazes because it’s black colouring most definitely comes from manganese dioxide! Glaze chemistry is a whole subject on it’s own! We use commercial Mayco glazes on purpose – for their huge range of colour possibilities, stability, cool interactions, artistic freedom with the ability to easily brush the glazes on and ease of use. We currently have almost 50 glazes on hand! A major project is to test the interactions of all glazes with each other. That is 2,500 test tiles!!!! I’m going to make the wall behind the wheels the feature wall of pretty colours! Step Seven – Glaze (Gloss or sometimes called “Glost”) Firing Most of the time this is the final stage of making your creation (but not always!) The glaze kiln goes to 1240°C. This is called cone 6, or midrange. It is the low end of stoneware temperatures. Stoneware clays and glazes are typically fired at cone 8 – 10, that is 1260 – 1290°C. The energy requirement to go from 1240°C to 1280°C is almost a 30% more! Our clay is formulated to vitrify (mature, turn “glass-like”) at 1240°, as are our glazes. A glaze kiln take around 12 hours to reach temperature and two to three days to cool down. Sometimes a third firing process is required – this is for decoration that is added to work after the glaze firing. For example – adding precious metals and lustres. this firing temperature is usually around 600 – 800°C depending upon the techniques being used. There are many students interested in gold and silver trims – we will be doing this third type of firing soon! After firing your work will be in the student finished work shelves. Remember to pay for it before you head out the door! There is a small extra charge for using porcelain clay (it’s more than twice the price of regular clay), and for any third firing process! Once your work has been fired it can not turn back into clay for millennia – so don’t fire it if you don’t like it! Put it in the bucket for recycling. https://firebirdstudios.com.au/the-process-of-making-pottery/ This bowl is an example of kitchenware used in the 19th century and still in use today.Bowl white ceramic plain that has two sets of edging around lip. Inside bowl has plaster designed to look like cooking mixture.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, kitchen equipment, ceramic

Wooden spoons were common utensils in colonial days and are still used today. The spoon is an example of kitchen utensils made and used in colonial Australia.Spoon wooden blonde, rod handle, oval shape base with flat top flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, spoon, wooden spoon, kitchen utensil, cooking utensil

This stove brush is shaped to fit into grooves and crevices on a cast iron stove range and fenders. A brush like this would be used in the 19th and early 290th centuries to apply a blackening agent to the metal to clean and preserve it would be polished to make it look more attractive.This object is significant as an example of an item in common use in the 19th and early 20th centuries.Stove brush, wooden with wooden raised handle and black bristles. The bristles at the ends of the brush are longer than in the centre, and flare outwards. The brush' is rounded at one end and pointed at the other.flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, cast iron stove, oven range, stove brush, blackening brush, cooking, kitchen equipment, wood fired stove

This enamel jug is a basic design that was common to households in the 19th and early 20th centuries. Enamelware dates back to 1760 in Germany.This object is significant as an example of an item in common use in the 19th and early 20th centuries.White metal enamel jug, white with navy blue handle and rim. Tapered cylindrical shape, with a pouring lip.None.flagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, jug, enamel jug, kitchen equipment, liquid storage, beverage preparation

The Process of Making Pottery Decorating, Firing, Glazing, Making, Technical There is a rhythm and flow to clay. It can’t be done all at once! Even the making process! It can take weeks to get everything done, especially if you can only work on your pottery once a week! Even though we have three hour classes, it’s often just not enough time! Here is an overview of some of the processes so you have a bit more grasp on some of the technical stuff! Step One – Design There are SO many ideas out there for making stuff in clay! From delicate porcelain jewellery, through to heavy sculptural work and everything in between. Deciding your direction is sometimes not that easy – when you first start, try everything, you will naturally gravitate to the style that you enjoy! The options and variations are endless and can get a wee bit overwhelming too! Check in with me before you start to ensure your ideas will work, what order you might do things, how you could achieve the look you are seeking and any other technical data required! Step Two – Making Clay is thixotropic. This means that as you work with it, the clay first gets sloppier and wetter, before is begins to dry in the atmosphere. For most things, you simply can’t do all parts of the project at once. An example of work order might look like: Get last weeks work out from the shelves Prepare clay for today’s work – roll your clay, prepare balls for throwing, make the first stage of a pinch pot) Clean up last week’s work and put it on the shelf for bisque firing Check that you have any glazing to do – and do enough of it that you will have time to finish your main project Do the next step of your next project – there might be a further step that can’t be complete immediately, in that case, wrap your work well and put onto the shelves. Letting your work rest for a while can really help keep your work clean and professional looking. Many things require bagging under plastic to keep it ready for work the next week – put your name on the outside of the bag so you can find your work easily. We have stickers and markers. Consider how you want to decorate your work – coloured slip can be applied at a fairly wet stage (remembering that it will make your work even wetter!). Trying to apply slip to dry clay won’t work! If you want to do sgraffito – you will need to keep the work leather hard (a state of dryness where you can still work the clay with a little effort and a little water and care). Step Three – Drying Most of the time your work can go into the rack uncovered to let it dry out for the following week. If you want to continue forming or shaping you will need to double bag your work – put your work on a suitable sized bat and put the bat in a bag so the base of the bag is under the bat, then put another bag over the top of the work and tuck the top of the bag under the bat. If you want to trim (or turn) your thrown work the following week, it should also be double bagged. If your work is large, delicate, or of uneven thicknesses, you should lightly cover your work for drying. When considering the drying process, bare in mind the weather, humidity and wind! The hotter and dryer, the faster things dry and work can dry unevenly in the shelves – this can lead to cracking – another time to lightly cover your work for drying. Step Four – Trimming and Cleaning Up Your work is dry! It is called greenware now and it is at it’s most fragile! Handle everything with two hands. I often refer to soft hands – keep everything gentle and with your fingers spread as much as possible. Try to not pick up things like plates too much, and always with both hands! Before your work can be bisque fired it should be “cleaned up”. You work won’t go into the kiln if it has sharp edges – when glazed, sharp edges turn into razor blades! Use a piece of fly wire to rub the work all over – this will scratch a little so be light handed. Use a knife or metal kidney to scrape any areas that require a bit more dynamic treatment than the fly wire offers! Finally, a very light wipe over with a slightly damp sponge can help soften and soothe all of your edges and dags! Trimming thrown work: If you are planning to trim (or turn) your thrown work (and you should be), make sure you bag it well – your work should be leather hard to almost dry for easiest trimming. Use this step to finish the work completely – use a metal kidney to polish the surface, or a slightly damp sponge to give a freshly thrown look. Wipe the sponge around the rim after trimming, and check the inside of the pot for dags! Trimming slip cast work: Usually I will trim the rims of your work on the wheel the following day to make that stage easier, however you will still need to check your work for lumps and bumps. Last but not least – check that your name is still clearly on the bottom of your work. Step Five – Bisque Firing When the work is completely dry it can go into the bisque kiln. The bisque kiln is fired to 1000°C. This process burns off the water in the clay as well as some of the chemically bound water. The structure of the clay is not altered that much at this temperature. Inside the bisque kiln, the work is stacked a little, small bowl inside a larger bowl and onto a heavy plate. Smaller items like decorations or drink coasters might get stacked several high. Consideration is paid to the weight of the stack and shape of the work. A bisque kiln can fire about one and a half times the amount of work that the glaze kiln can fire. The firing takes about 10 hours to complete the cycle and about two days to cool down. Once it has been emptied the work is placed in the glaze room ready for you to decorate! Step Six – Glazing Decorating your work with colour can be a lot of fun – and time consuming! There are three main options for surface treatment at this stage: Oxide Washes Underglazes Glazes Washes and underglazes do not “glaze” the work – It will still need a layer of glaze to fully seal the clay (washes don’t need glaze on surfaces not designed for food or liquid as they can gloss up a little on their own). Underglazes are stable colourants that turn out pretty much how they look in the jar. They can be mixed with each other to form other colours and can be used like water colours to paint onto your work. Mostly they should have a clear glaze on top to seal them. Oxides are a different species – the pink oxide (cobalt) wash turns out bright blue for instance. They don’t always need a glaze on top, and some glazes can change the colour of the wash! The glazes need no other “glaze” on top! Be careful of unknown glaze interactions – you can put any combination of glaze in a bowl or on a plate, but only a single glaze on the outside of any vertical surface! Glazes are a chemical reaction under heat. We don’t know the exact chemicals in the Mayco glazes we use. I can guess by the way they interact with each other, however, on the whole, you need to test every idea you have, and not run the test on a vertical surface! Simply put, glaze is a layer of glass like substance that bonds with the clay underneath. Clay is made of silica, alumina and water. Glaze is made of mostly silica. Silica has a melting point of 1700°C and we fire to 1240°C. The silica requires a “flux” to help it melt at the lower temperature. Fluxes can be all sorts of chemicals – a common one is calcium – calcium has a melting point of 2500°C, however, together they both melt at a much lower temperature! Colourants are metal oxides like cobalt (blue), chrome (green through black), copper (green, blue, even red!), manganese (black, purple and pink) iron (red brown), etc. Different chemicals in the glaze can have dramatic effects. for example, barium carbonate (which we don’t use) turns manganese bright pink! Other elements can turn manganese dioxide brown, blue, purple and reddish brown. Manganese dioxide is a flux in and of itself as well. So, glazes that get their black and purple colours, often interact with other glazes and RUN! Our mirror black is a good example – it mixes really well with many glazes because it fluxes them – causes them to melt faster. It will also bring out many beautiful colours in the glazes because it’s black colouring most definitely comes from manganese dioxide! Glaze chemistry is a whole subject on it’s own! We use commercial Mayco glazes on purpose – for their huge range of colour possibilities, stability, cool interactions, artistic freedom with the ability to easily brush the glazes on and ease of use. We currently have almost 50 glazes on hand! A major project is to test the interactions of all glazes with each other. That is 2,500 test tiles!!!! I’m going to make the wall behind the wheels the feature wall of pretty colours! Step Seven – Glaze (Gloss or sometimes called “Glost”) Firing Most of the time this is the final stage of making your creation (but not always!) The glaze kiln goes to 1240°C. This is called cone 6, or midrange. It is the low end of stoneware temperatures. Stoneware clays and glazes are typically fired at cone 8 – 10, that is 1260 – 1290°C. The energy requirement to go from 1240°C to 1280°C is almost a 30% more! Our clay is formulated to vitrify (mature, turn “glass-like”) at 1240°, as are our glazes. A glaze kiln take around 12 hours to reach temperature and two to three days to cool down. Sometimes a third firing process is required – this is for decoration that is added to work after the glaze firing. For example – adding precious metals and lustres. this firing temperature is usually around 600 – 800°C depending upon the techniques being used. There are many students interested in gold and silver trims – we will be doing this third type of firing soon! After firing your work will be in the student finished work shelves. Remember to pay for it before you head out the door! There is a small extra charge for using porcelain clay (it’s more than twice the price of regular clay), and for any third firing process! Once your work has been fired it can not turn back into clay for millennia – so don’t fire it if you don’t like it! Put it in the bucket for recycling. https://firebirdstudios.com.au/the-process-of-making-pottery/This bowl was made by renowned pottery company J & G Meakin of England. The firm was established in the mid-1800's. The bowl is an example of kitchenware used in the 19th century and still in use today.Bowl; white ceramic, round and tapering inwards towards base. Made by J and G Meakin England.On base, 'Ironstone China Reg SOL 391413' with symbolflagstaff hill, flagstaff hill maritime museum and village, warrnambool, maritime museum, maritime village, great ocean road, shipwreck coast, mixing bowl, food preparation, j & g meakin, pottery, stoke-on-trent, kitchen equipment, ceramic

François Boullier of France and Isaac Hunt of England both took credit for inventing the cheese grater in the 1540s. Ingredient supplies, mainly milk, ebbed and flowed in both France and England, as they have in the United States during this coronavirus pandemic. Boullier originally aimed to use up an overabundance of cheese in Paris. An avoidance of meat led French farmers to convert their meat herds (often boys) to dairy-producers (girls), which led to more milk and even too much milk, which led to a market flooded with cheese. Boullier made his first cheese grater out of pewter to grate hard, sometimes dried out cheeses, which turned them into a sort of condiment. Pewter is known as a rather soft metal, and Boullier’s original grater is reportedly on display in a museum in Le Havre, France. Isaac Hunt wanted to stretch cheese due to a shortage in England, so he grated and melted it for Welsh rarebit and other dishes. Grating cheese allowed more even distribution of the cheese to melt it in cooking and still does. During the Great Depression of the 1930s, Philadelphia cheesemonger and entrepreneur Jeffrey Taylor also wanted to stretch cheese for to bulk up cheese features, including vegetables, to make them look like more filling food during difficult economic times. Taylor read about Boullier’s invention and made his own by sharpening the holes of a metal shower drain. For the last century, many companies have tried to improve the cheese grater and invent a new “latest” one that we all must-have. Graters are now made of all sorts of materials including bamboo, wood, and various metals. Some are decorated with clowns’ heads, some are shaped like plastic frogs, while others bear knuckle protectors. They vary in size, shape, and function. Grating slots come with different angles and shapes of slots and can grate everything from zucchini, onions and cheese, to cooked eggs, coconut, potatoes, cabbage, and lemon and orange peel, and possibly even create wood shavings. Smaller graters grate ginger and garlic. https://www.cheeseprofessor.com/blog/antique-cheese-gratersThe grater has been used for hundreds of years and has proved its worth in the kitchen throughout history.Grater metal (3 parts) Tripartite with hinges for folding.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, grater

This knife would have been used for food preparation.Knife; wooden handle and shaped metal blade with serrated cutting edge.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, kitchen knife, food preparation

From the early days of our race, the knife represented one of the first and most important tools that enabled rise of our technology, military, culture, science and all other things that brought us to this point of modern civilisation. As a vital tool for survival, combat, construction and food preparation, the knife quickly became the most basic tool from which all others were born. In those ancient times, 500,000 years ago, sharpened stones started slowly evolving, becoming more and more like their modern counterpart. Before the time when fire enabled the melting of the various metals, and forging them into modern knives, their stone counterparts received several visual upgrades. Double bladed knives were most popular, and their wooden or stone hilts were decorated with animal skins and feathers. Those knives represented a great deal of pride for the warriors and elders who owned them, and that tradition continued to be practised with the arrival of the Bronze Age. The appearance of metallurgy brought the ability to create knives from softer types of metal. Even though knives from bronze did not provide durability over longer periods of time [easily dulled, and susceptible to corrosion), their sharpness and slim designed proved to be superior to any stone knife tool. As the centuries went on, iron and then steel became commonplace across the entire world. Knives created from those materials were much more durable and easier to maintain their sharpness after prolonged use. During medieval times in Europe, steel metallurgy managed to evolve knives from small single or double-bladed edges to larger sizes - swords, spears and axes. Even with all those advancements, the use of knives as an eating utensil continued to be used in some small circles. Even as early as the 15th century, wealthy circles of people started carrying personal knives, intended for double use - both eating and defending against threats. During those times the host were not obliged to provide their guest with any kind of eating utensil in addition to plates, so wealthy males used their eating knives for cutting their own meals, and the meals of nearby female guests. Slim double-bladed knives were good for cutting and piercing foods. As the use of forks became widespread in the whole of Europe by the late 17th century, most people used this kind of small knife on a regular basis (a combination of two knives, one for stabilising and other for cutting the meal). http://www.eatingutensils.net/history-of-cutlery/knife-history/The knife is one of the most important items that has enabled the development of civilisation over thousands of years.Carving knife with wooden handle and rusted slender metal blade.None.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, knife, kitchen equipment, dining

An example of baking equipment used in Victorian times and still used to day.Spoon, wooden, blonde colour. Spoon section tapers to rounded point and handle is flat and shaped.flagstaff hill, warrnambool, shipwrecked-coast, flagstaff-hill, flagstaff-hill-maritime-museum, maritime-museum, shipwreck-coast, flagstaff-hill-maritime-village, wooden spoon, food preparation, baking equipment, kitchen utensil