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Andheri East, Mumbai 116/B, Plot No. 150, Gokul Industrial Estate, Marol Co Operative Industrial Area Sagbag, Off. Andheri-Kurla Road, Marol, Andheri East, Andheri East, Mumbai - 400059, Dist. Mumbai, Maharashtra

Sakinaka, Mumbai Gala No. 11, Shiv Mangal Compound, Shankar Nagar Behind Shiv Prabha Housing Society, A. G. Link Road Asalpha Village, Ghatkopar West, Sakinaka, Mumbai - 400084, Dist. Mumbai, Maharashtra

vacuum gold bar making machine- gold& silver bar making | cdocast

The CDOCAST vacuum gold bar Making machine is specially designed for casting high quality gold and silver bars and ingots. This gold bar Making machine can melt up to 4 x 1 kg of gold and silver ingots per batch. Or max 1pcs 15kg bullion on batch. And other customized sizes bullion can also be cast in our furnace.

The entire melting process is carried out under vacuum and with argon as a protective gas. As a result, the melted ingots have a shiny surface with no water ripples.The entire vacuum melting & casting process minimizes the loss of precious metals and maximizes the prevention of metal oxidation.

The CDOCAST vacuum gold bar making machine can cast up to 15Kg of gold bars .We can also customize the machine to make gold ingots of different size according to customer needs. 15kg gold bars casting need the power supply of 75kw, the bigger bar cast, the more power required.

1: Our Vacuum gold bar casting machine comes with the plc touch screen system control, the operator only has to filled in the graphite mould with the pre-weighted raw material, like gold powder, gold grain, close the door of the melting chamber as well as press the START switch to release the automatic cycle, the casting will started automaticly, after finished the casting cycle, you can abtain the gold or silver bar which is ready for the market.

2:The induction coil of the vacuum gold bar making machine is custom designed to be either square or rectangular in shape, with a water cooling plate in the middle of the coil. After melting, the cooling plate will be jacked up by a cylinder to rapidly cool the graphite mould, allowing the graphite cover and graphite mould to reach the same temperature, resulting in a bright and flat surface.

3:The entire casting process consists of melting and cooling process, with melting times ranging from 6 to 12 minutes, depending on the size of the bars The cooling time is usually recommended to be 8 minutes or more, as this will maximise the lifetime of the graphite mould.

5:There is no need for engineers to install and debug onsite. Each gold bar casting machine comes with installation and debugging video. Under the video guidance, you can simply complete the installation and start to run our furnace,what is more,each vacuum gold bar making machine produced by CDOCAST will be strictly tested before leaving the factory to ensure stable quality

mini gold melting furnace, portable machine for silver and gold jewelry

This small gold smelting machine can in no time reach a maximum temperature of 1600. This features also makes this machine for melting other metals. Metals such as silver, copper and aluminum, just to mention a few.

Increased efficiency- The efficiency of a gold melting machine closely relates to its power requirements. The high voltage primary coil in thegold melting machineallows the furnace to heat up quickly providing higher thermal efficiency for all round melting.

Reduced cost of operation- The financial implication of running yourgold melting machinegoes hand in hand with energy efficiency. The use of ajewelry furnacereduces power consumption, therefore, saving production cost.

Improved metallurgical function- The principle behind induction melting revolves around the use of high voltage primary coil to generate an electromagnetic current that heats the metal. The induction furnace performs a function called electromagnetic stirring which causes molten metal to become even or uniform for casting.

Cleaner melting operations- The gold melting machinehas a less negative impact on the environment compared to electrical furnaces. Thisjewelry furnacereduces the emissions of gas, smoke and dust associated with other types of furnaces.

Induction melting furnaces operate on a radically different principle to the cupola version. The induction furnace uses coil heating elements embedded within a crucible or integrated into the walls of the heating chamber itself and produces a magnetic field. These convert electrical energy into heat which is radiated through the material with an outstanding degree of thermal uniformity. The magnetic field can change directions depending on the direction of the current flow. An alternating current that passes through the coil causes a magnetic field that changes in the same direction at the same speed as the current. For instance, a magnetic field switches directions 60 times a second if the current is 60Hz AC.

Metal melts at different temperatures and may require certain types of melting furnaces. Metal melting requires a lot of heat. Melting furnaces commonly used in melting metals are; induction, cupola, electric arc furnaces, etc.

The induction heating is an efficient process of melting metals. Induction heating has a minimal wasted energy with direct transfer of energy to the part being heated. This high efficiency results in significant power savings. Induction heating proves to be a highly efficient method for industrial heating applications.

Compared to torch and oven heating, induction heating has a number of advantages, such as; induction transfers more power to the load, no ramp up, does not heat up a working environment that may lead to energy wastage.

Induction furnaces do not have a limit to the temperature that they can melt. The gold melting machinetemperature can be as high as 3000 degree celsius. Therefore making it suitable for precious metal melting. For platinum group melting, the required heating temperature is usually 2000 degree celsius.

Crucibles for metal melting generally have a higher melting temperature compared to the material being melted. Crucibles for melting metal in a jewelry furnaceare graphite crucibles, silicon carbide crucible, quartz crucible, etc.

The induction furnace is heated faster and has a higher thermal efficiency. The heat in this furnace is generated inside the furnace so that heating speed is high. In an electric arc furnace, the heat of the arc after the material is cleared must be transferred to the molten metal through the slag which is indirect heating. Thermal efficiency is poor as heat of arc is lost through furnace cover and wall.

Melting and smelting are similar terms used to convert a solid material into liquid especially in metallurgy. Melting simply means the process of converting the entire solid material into liquid when heating in agold melting machine. Melting is also called fusion. During melting, the internal energy of the substance increases by heating.

Smelting on the other hand is not only the conversion of solid material into liquid state but also removes metal from its ore in its purest form. An ore is a naturally occurring solid mineral from which a metal or valuable mineral can be extracted. The smelting process has two requirements; heat treatment and reducing agents.

Borax plays an important role during the gold refining process. Borax is placed along with gold ore in a crucible and then heated. The heating action is what triggers the borax to work. The borax is responsible for separating the gold from its ore and purifying the metal. As all material melt down, they separate from one another. As the process continues, the borax causes the other minerals to oxidize and break down even further. Gold is unaffected by this reaction, it sinks to the bottom of the crucible intact.

Due to the affordability of borax and effectiveness at extracting gold, borax-based refining technique was popular during the 19th century gold rush. It still continues today among individual prospectors and different scales of mining operations.

After the slag has been heated for long enough, the molten gold begins to dissolve away. Allow the gold to slip down into the smelting vessel. After this has occurred, allow the gold to cool, remove from the smelting vessel and remove the slag.

Unwanted gold can be melted and used to make other types of jewelries. Gold jewelry can be melted using the following methods: propane torch, gold melting machine, resistance furnace or a 1200 watt microwave oven.

Of all the methods of melting gold jewelry, the gold melting machine method is highly recommended. The gold melting machine is highly efficient for both small and large size gold production. This method is also efficient because the heating system is produced from the alternating magnetic current and directed into the crucible, hence no energy is lost.

A process of separating gold from its ore is referred to as cupellation. This process involves treating ores under high temperatures to separate noble metals such as gold and silver from base metals. Base metals such as copper, zinc and lead will oxidize whereas noble metals will not oxidize. Cupellation involves melting gold ore at temperatures in excess of 960 degree celsius, at this temperature, the base metals oxidize while the gold remains on top of the solution. In other words, gold is extracted from its ore and heated in an induction furnace at 1064 degree celsius, in order to elevate the gold above its melting point.

Many impurities are burned off in the furnace, other metals remain. Gold ore extracted from mines in the earth contains a significant amount of impurities, including traces of other metals. In order to separate the gold from other metals, chemicals such as cyanide solution or mercury are introduced to the gold. This process causes the gold to coagulate, and form nuggets and clumps of gold.

Another process of removing impurities out of gold is to place thegold ore in a crucible. Put the crucible in agold melting machine. Heat to 1,100 degrees Celsius. Dross will rise to the surface. Periodically remove the crucible from the furnace and skim the impurities off the surface of the molten gold. Stir the gold after each removal of dross and before returning it to the furnace. Repeat this process until dross stops rising to the surface.

Faster charging speed- charging should be done rapidly and metal should be put into the furnace as fast as the furnace is able to melt it under full power. A faster automatic charging system can reduce energy consumption.

Avoid overfilling- Overfilling the furnace, that is, having cold charge materials lying above the upper melt line level recommended by the furnace manufacturer will cause wasted energy. The problem is twofold. First, this will cause overheating of the jewelry melting furnace components in the top part of the furnace leading to energy loss. Second, with the furnace overfilled, the lid cannot be closed.

Keep a lid on- The best way to reduce heat loss through radiation is by keeping the lid on. This means closing thejewelry melting furnacelid very quickly after adding charge material and after taking temperatures or adding alloying materials.

In the electric arc furnace, the heat of the arc after the material is cleared must be transferred to the molten metal through the slag, which is indirect heating. Thermal efficiency is poor. The furnace is in the shape of a basin, and plenty of the heat of the arc is lost through the furnace cover and the furnace wall. While the induction furnace is heated faster and has higher thermal efficiency. The heat is generated in the furnace, so the heating speed is high.

One of the advantages of thegold melting machineis its use of less electricity compared to other types of furnaces. The heat generated by the furnace is used within thejewelrymelting furnace, no heat escapes to cause extra electricity charges. The jewelry melting furnaceis highly energy efficient and can help you save up to 50% of energy used in smelting and melting metals. The jewelry melting furnaceis integrated with a power supply capable of producing heat with lower rates of heat loss. For instance, a gold melting machinecan melt metal of up to 1450 degree celsius using less than 600kWh of electricity.

Gold melts at 1064 degree celsius. The boiling point of gold occurs at 2845 degree celsius. Pure gold melts at 1064 degree celsius but if other alloys are present (copper is the most commonly used base metal), then the temperature required to melt gold will vary. Due to the softness of pure gold (24 karat), it is usually alloyed with base metals for use in jewelry thereby, altering its ductility, melting point, colour and other properties. Alloys with lower karat ratings, for instance 22k, 18k, 14k or 10k contain higher percentages of copper or other base metals or silver or palladium in their alloys.

The melting of gold is not the only method to regain raw material for the production of new jewelry, coin, industrial or dental gold. Another method of determining the degree of purity and quality of gold is through the XRF analysis method.

Borax allows you to melt your gold in a pure and harmless manner. The quantity of borax for melting in a gold melting machinewill be determined by the quantity of gold to be melted. With some borax and heat, it is possible to extract gold from a simple ore. Once the borax melts, it lowers the melting temperature of everything in the ore.

Generally when melting gold, a small amount of borax is needed for melting. Traditionally, for gold melting, flux mixture should contain 40 to 50% of borax, 10 to 15% of soda ash and 1 to 5% of silica.

Smelting gold is accomplished by using high pressure, heat and various chemicals to break down the ore and melt the gold to separate it from impurities. To extract gold from its ore, the temperature must be at1046 degree celsius.

The first step in the process of smelting gold is the preparation of flux. The most common forms of flux used in gold smelting are borax, sodium nitrate, and silica. The percentage of these fluxes varies and it depends on the composition of the precipitate. These fluxes are necessary to bring impurities to the surface.

When the mixture of the flux and gold are placed in a gold melting machine, both materials melt in the furnace. Thejewelry furnaceis heated to high temperatures exceeding 900 degree celsius. After the mixture melts, the precious metal and impurities separate. This is the aim of the entire procedure. Gold is denser than most impurities in it. This allows the gold to settle down.

In the smelting process, the most important aspect is separating the impurities and flux from gold. Gold settles at the base of the crucible after melting, this makes it easy to drain the impurities that have risen to the top. This leaves the gold at the bottom of the furnace crucible that can be poured into a mold.

A cast iron can be used for smelting gold but it is recommended to use a graphite crucible for smelting. Using a cast iron will result in loss of precious metal, contamination of precious metal and a slower smelting process. For an effective smelting process, a cast iron cannot fit into a jewelry cruciblerather an open stove or kiln, which cant really get to the temperature you need to smelt gold. Smelting in a cast iron will not remove any impurities.

Using a cast iron for smelting can cause the cast iron itself to reach its melting point before completing the gold smelting process. Therefore, we recommend you use a graphite crucible for smelting gold.

To smelt your gold at home, you need access to a high temperature gold and silver smelting equipment. Determine the size of silver you want to smelt. This will tell the size of the smelting equipment you need. Although most do it yourself smelting requires a mini sized furnace.

You can remove the most common metal in silver ore using elements that bond with oxygen at lower temperatures than silver. This oxidation process will make copper oxide, zinc oxide and lead oxide to float on top of the crucible allowing the slag to be removed.

Load the solid silver ore into your crucible and set in the smelting equipment. Silver melts at 962 degree celsius. Heat up the smelting equipmentand allow the silver to melt. When the mixture becomes liquid, impurities from the silver ore rises to the surface and can be skimmed off to leave pure silver behind.

Gold melts at a temperature of 1064 degree celsius while silver melts at 961.8 degree celsius. To alloy these two metals, melt the gold to hot liquid, add the silver metal. This will dissolve immediately in the blazen liquid gold.

Once the flames turn from bright orange to a bright yellow, this confirms that your metal is thoroughly atomically combined which is important to assure a well-rounded metal alloy. If the metals are not well blended, they may be problematic at the production phase.

Maximize the use of your smelting equipment- One of the best ways one can reduce how much energy their smelting equipmentuses is by using the equipment more effectively. Short holding times can improve the efficiency of your smelting equipment, because longer holding time requires more energy consumption.

Make any necessary changes to your operating procedures- Another great way to reduce your smelting equipmentenergy consumption is by replacing your current melting equipment. Ensure you give your foundry a thorough investigation to determine some of the best operational changes that you can make to cut down on energy use.

Boost your charging speed- Apart from long holding times, charging speed can also have a major impact on the use of your smelting equipment. Long charging times caused by manual or magnetic crane charging can lead to more energy use. You want your charging to be done rapidly and efficiently, use automatic charging systems.

Streamline your temperature measurement- When you check the temperature of the smelting equipmentregularly, you are losing valuable time and wasting needed energy. By using a computerized temperature control system, you can reduce the need to check furnace temperature.

Different methods can be used to melt gold dust; gas torch, gas furnace, electric furnace, coal furnace. Gold dust can be wasted when melted with a gas torch. Here is how to melt gold dust using a induction furnace:Add a very little amount of borax into the furnace before placing your gold dust.You can go ahead to add some flux, flux is a mixture of borax and sodium carbonate. You can mix it with gold dust before melting or during melting.Go ahead and melt the content of the crucible.

Induction heating can be as low as 100 degree celsius and as high as 3000 degree celsius. The temperature of a gold smelting equipmentwith a graphite crucible can reach 1600 degree celsius suitable for melting gold, silver, stainless steel and copper. Higher melting metals such as platinum group metals whose melting temperature can reach 2000 degree celsius can be melted easily with an induction heat.

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[ Mailing Address | Gold International Machinery, Corp | P.O. Box 998 Pawtucket, RI 02862 ] [ Physical Address: | 136 Newell Avenue | (corner of Thurston & Newell Sts.) | @Exit 26, Route 95 North | Pawtucket, RI USA 02860-0998 ] [ [email protected] | Toll Free: 1-800-619-GOLD | Phone: 401-724-3200 | Fax: 401-728-5770 ]

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Mumbai, Ambarnath, Dist. Thane 210 E, Bldg. No.A-3, PALA, Empire Industrial Centrum kalyan Badlapur Road Opp. hotel S3 Park Chikhloli,, Mumbai, Ambarnath - 421505, Dist. Thane, Maharashtra

Near S.N.R college of Arts and Science, Coimbatore 13, MJ Sargunam Colony, Near SNR College, Nava India, Near S.N.R college of Arts and Science, Coimbatore - 641006, Dist. Coimbatore, Tamil Nadu

gold international machinery | the one stop shop for all of your machinery, equipment, tool & die needs

[ Mailing Address | Gold International Machinery, Corp | P.O. Box 998 Pawtucket, RI 02862 ] [ Physical Address: | 136 Newell Avenue | (corner of Thurston & Newell Sts.) | @Exit 26, Route 95 North | Pawtucket, RI USA 02860-0998 ] [ [email protected] | Toll Free: 1-800-619-GOLD | Phone: 401-724-3200 | Fax: 401-728-5770 ]