Product Code : CE-C-NN-CR
Natural graphite, a crystalline form of carbon that occurs in nature, is used to make graphite, which is then combined with carbon dioxide or a lump of clay that resists fire. Petroleum pitch and coke, byproducts of oil refining, are processed to produce synthetic graphite; because of this, it has a lower sulfur concentration and a higher, purer, fixed carbon content. A graphite crucible offers a non-reactive container that can withstand the high temperatures required for melting and treating metal. Crucibles offer a reliable container that won't react with the metals or other materials burned at high temperatures. Carbon is found in graphite, which can look like flakes or sheets. Graphite can create heat-resistant, long-lasting jars and containers when combined with clay. Graphite crucibles, on the other hand, can be brittle and should be handled carefully, just like many ceramic containers.
Graphite Crucibles have numerous applications due its fundamental softness, including in lubricant formulations and as an additive to structural materials and metallic alloys. We provide expandable graphite with expansion ratios of 100, 150, 180, 200, 250, 280, and 300 times, particle sizes of 32 mesh, 50 mesh, 80 mesh, 100 mesh, -100 mesh, -200 mesh, -325 mesh and purities from 90-99.99%.
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Product | Product Code | Purity | Size | Contact Us |
Product Information
Natural graphite, a crystalline form of carbon that occurs in nature, is used to make graphite, which is then combined with carbon dioxide or a lump of clay that resists fire. Petroleum pitch and coke, byproducts of oil refining, are processed to produce synthetic graphite; because of this, it has a lower sulfur concentration and a higher, purer, fixed carbon content. A graphite crucible offers a non-reactive container that can withstand the high temperatures required for melting and treating metal. Crucibles offer a reliable container that won't react with the metals or other materials burned at high temperatures. Carbon is found in graphite, which can look like flakes or sheets. Graphite can create heat-resistant, long-lasting jars and containers when combined with clay. Graphite crucibles, on the other hand, can be brittle and should be handled carefully, just like many ceramic containers.
Our graphite crucible is made from high purity (>99.9%) graphite raw material. It has unique features such as high temperature resistance (withstand up to 2760 °C), excellent acid and alkali resistance, good thermal shock resistance, excellent thermal/electrical conductivity and high mechanical strength. It is widely used for induction heating and metal melting, such as Ag, Au, Cu and Al metals. Powder processing is recommended for the best calcination and sintering results. ATT Supplies offer a variety of balling milling equipment and accessories for powder processing. Graphite crucibles are the perfect tool for metal casting because of their thermal conductivity, high-temperature resistance, low thermal expansion coefficient for high-temperature applications, and anti-strain characteristics to rapid heating and cooling. They also have great chemical stability and are resistant to acids and alkaline solutions.
Graphite crucibles are widely used in the smelting of precious metals and the smelting of non-ferrous metals and their alloys in metallurgy, foundry, machinery, chemical and other industrial areas because of their superior properties. And has a good technical and economic effects. Graphite crucible has more sizes, and not restricted to the production scale, quantity and smelting materials, it can be produced to any size, any quantity, and can ensure the purity of the smelting materials.
Graphite Crucibles have numerous applications due its fundamental softness, including in lubricant formulations and as an additive to structural materials and metallic alloys. We provide expandable graphite with expansion ratios of 100, 150, 180, 200, 250, 280, and 300 times, particle sizes of 32 mesh, 50 mesh, 80 mesh, 100 mesh, -100 mesh, -200 mesh, -325 mesh and purities from 90-99.99%.
Synonyms
Carbon crucibles, FABMATE 99.999% ultrapure graphite crucibles
Graphite Crucibles Specification
Size:customized
Purity: (2N) 99%,(3N) 99.9%,(4N) 99.99%,(5N) 99.999%, customized
Per your request or drawing
We can customized as required
Properties(Theoretical)
Molecular Weight | 12.01 |
Appearance | Black solid |
Melting Point | 3652 - 3697 °C (sublimes) |
Boiling Point | 4200 °C |
Bulk density | 1.75-1.85g/cm3 |
Electronegativity | 2.55 Paulings |
Specific resistance | 10-15μΩ.m |
Bending strength | ≥40MPa |
Compressive strength | ≥70 MPa |
Heat of Vaporization | 128 K-Cal/gm atom at 4612 °C |
Tensile Strength | 18 MPa (Ultimate) |
Thermal Conductivity | 6.0 W/m-K |
Thermal Expansion | 4.9 µm/m-K |
Young's Modulus | 21 GPa |
Modulus of elasticity | 9.5-12.5GPa |
Shore hardness | ≥5 |
C.T.E.(100-600) °C | 3.2-5.2(10-6/°C) |
High Pure Graphite | ||||
Item | Unit | baked twice | baked three time | baked four time |
impregnated once | impregnated twice | Impregnated three times | ||
grain size | mm | ≤325mesh | ≤325mesh | ≤325mesh |
Bulk density | g/cm3 | ≥1.68 | ≥1.78 | ≥1.85 |
Specific resistance | μΩ.m | ≤14 | ≤14 | ≤13 |
Bending strength | MPa | ≥25 | ≥40 | ≥45 |
Compressive strength | MPa | ≥50 | ≥60 | ≥65 |
Ash content | % | ≤0.15 | ≤0.1 | ≤0.05 |
Use of Graphite Crucibles
Graphite crucibles are perfect for the casting process since they are non-reactive. Their superior heat efficiency aids in speedy metal melting for shorter production cycles. In addition, graphite crucibles are strong and long-lasting because they are impervious to chemicals and corrosion and unaffected by the environment in the workshop.
A graphite crucible should be properly stored and conditioned. Before usage, a new graphite crucible needs to be in condition. After two hours at 500 degrees Fahrenheit (260 °C) in the oven, the crucible should be removed and allowed to cool slowly in a dry area. Removing moisture keeps the crucible from splitting. Crucibles should be kept dry and should be reconditioned if they become wet.
Temperatures are raised during casting to lower the tensile and yield strengths of the metal alloys used. Depending on the type of metal, different temperatures are required for melting. The temperature of the crucible and the alloy being cast are two variables that affect casting. Due to its great resistance to the effects of temperature increases, graphite crucibles can supply the right vessel for casting, regardless of the type of metal alloy.
After use, a graphite crucible needs to be thoroughly cleaned. Metal shouldn't be allowed to cool in the crucible. When reheated, residual metal can expand and cause the crucible to break. Instead, use crucible tongs that are compatible with the crucible's design. To avoid cracking, the tongs should hold the crucible without applying pressure to the sides.
Improper use or handling can cause damage to graphite crucibles. They shouldn't be used with iron-containing metals since the iron will immediately react with the carbon in the crucible, altering or destroying the metal's composition. Before being heated, a crucible should be filled with loosely packed solid metals. A closely packed crucible may fail or crack if the metals expand. Never add water or wet metals to molten metal in a crucible since doing so could result in a steam explosion or cause the crucible to fail.
Graphite Crucible Shapes
The main difference between several crucible types is their shape. One shape is called “bilge,” which indicates a barrel shape. In addition, graphite crucible shapes are sorted by letter of the alphabet, so the first crucible shape, or “A” shape, is a cup shape common among crucibles. Since an open cup design is simpler to produce than a barrel shape, "A" shaped crucibles may be less expensive.
Graphite crucibles sorted by letters are further broken down into subgroups based on the shape, interior diameter, outer diameter, and height of the crucible.
The kind of crucible used depends on the kind of metal being treated. The crucible's construction and design must hold the metal at its maximum melting point. The chemical and physical interactions between the metal and the crucible also affect this.
Applications of Graphite Crucibles
Graphite crucibles are widely used in the smelting of precious metals and the smelting of non-ferrous metals and their alloys in metallurgy, foundry, machinery, chemical and other industrial areas because of their superior properties. And has a good technical and economic effects. Graphite crucible has more sizes, and not restricted to the production scale, quantity and smelting materials, it can be produced to any size, any quantity, and can ensure the purity of the smelting materials.
Metals Melted In Graphite Crucibles
Copper
Due to its resistance to thermal shock, a silicon carbide graphite crucible is used to process copper-based alloys that are melted in a fuel-fired furnace.
Aluminum
Carbon or ceramic-bonded clay graphite and silicon carbide are used as crucibles for the production of aluminum and aluminum alloys since these metals melt at 750 °F to 2912 °F (400 °C to 1600 °C).
Gold
Superior-grade graphite crucibles for melting gold have great mechanical strength, are resistant to oxidation and thermal shock and have thermal stability. They are also built to endure more than 3632° F (2000° C).
Silver
Similar to those used to melt gold, graphite crucibles for melting silver may sustain temperatures as high as 3632 °F (2000 °C). Natural graphite serves as the material for the crucible's body, retaining its chemical and physical characteristics. When melting at a higher temperature, the thermal coefficient is less, but it has strain resistance to sudden changes in temperature.
Brass
Graphite crucibles can sustain temperatures above 3632 °F and are identical to those used to melt gold. The crucible's body is made of natural graphite, which retains its chemical and physical characteristics. Although the thermal coefficient is low when melting at a high temperature, it has strain resistance to sudden changes in temperature.
Packing of Graphite Crucibles
Standard Packing:
Typical bulk packaging includes palletized plastic 5 gallon/25 kg. pails, fiber and steel drums to 1 ton super sacks in full container (FCL) or truck load (T/L) quantities. Research and sample quantities and hygroscopic, oxidizing or other air sensitive materials may be packaged under argon or vacuum. Solutions are packaged in polypropylene, plastic or glass jars up to palletized 440 gallon liquid totes Special package is available on request.
ATTs’ Graphite Crucibles is carefully handled to minimize damage during storage and transportation and to preserve the quality of our products in their original condition.
Chemical Identifiers
Linear Formula | C |
CAS | 7782-42-5 |
MDL Number | MFCD00144065 |
EC No. | 231-955-3 |
Beilstein/Reaxys No. | N/A |
Pubchem CID | 5462310 |
IUPAC Name | Carbon |
SMILES | [C] |
InchI Identifier | InChI=1S/C |
InchI Key | OKTJSMMVPCPJKN-UHFFFAOYSA-N |