- Product Details
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Quick Details
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Model Number:
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B53
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Product name:
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molybdenum crucible
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Application:
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Industry
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Surface:
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Polished
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Purity:
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99.95% Min
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Material:
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Pure Mo
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Grade:
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M01
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MOQ:
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1kg
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Standard:
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ASTM B387
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Melt Point:
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2620 Degrees Celsius
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Origin:
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Luoyang City
Quick Details
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Dimensions:
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OD:118mm, ID:112mm, L130mm
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Place of Origin:
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Henan, China
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Brand Name:
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FGD
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Model Number:
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B53
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Product name:
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molybdenum crucible
-
Application:
-
Industry
-
Surface:
-
Polished
-
Purity:
-
99.95% Min
-
Material:
-
Pure Mo
-
Grade:
-
M01
-
MOQ:
-
1kg
-
Standard:
-
ASTM B387
-
Melt Point:
-
2620 Degrees Celsius
-
Origin:
-
Luoyang City
PRODUCTS DESCRIPTION
Precautions for using molybdenum crucibles
When using molybdenum crucibles, it is important to take certain precautions to ensure proper and safe use:
1. Temperature control: Molybdenum crucible is often used in high temperature situations. Careful temperature control is important to avoid exceeding the crucible's maximum operating temperature, which may result in deformation or failure.
2. Thermal shock: Avoid subjecting molybdenum crucibles to rapid temperature changes as this may lead to thermal shock and potential cracking. Gradual heating and cooling is recommended to minimize the risk of damage.
3. Chemical compatibility: Pay attention to the materials being processed in the crucible to ensure they are compatible with molybdenum. Certain chemicals or compounds may react with molybdenum at high temperatures, causing corrosion or degradation.
4. Handling and storage: Handle molybdenum crucibles carefully to prevent physical damage. Store them in a clean, dry environment to avoid contamination and potential surface reactions.
5. Cleaning: Properly clean the molybdenum crucible after use to remove any residue or contaminants. Avoid using abrasive materials that may scratch or damage the crucible surface.
Application
Molybdenum crucibles are commonly used in high-temperature applications, particularly in industries such as metallurgy, glassmaking, and high-temperature research. Some specific applications for molybdenum crucibles include:
1. Smelting and casting: Molybdenum crucible is used for smelting and casting metals and alloys due to its high melting point and excellent thermal conductivity. They are used in processes such as metal casting, sintering and powder metallurgy.
2. Crystal growth: Molybdenum crucible is used for single crystal growth, especially semiconductors and other advanced materials. Molybdenum’s high purity and inertness make it suitable for crystal growth processes.
3. High Temperature Processing: Due to their ability to withstand extreme heat and harsh environments, these crucibles are used in high temperature applications such as the production of ceramics, glass and other high temperature materials.
4. Research and development: Molybdenum crucibles are used in various research and development activities, including high-temperature experiments, material testing and production of special materials.
1. Smelting and casting: Molybdenum crucible is used for smelting and casting metals and alloys due to its high melting point and excellent thermal conductivity. They are used in processes such as metal casting, sintering and powder metallurgy.
2. Crystal growth: Molybdenum crucible is used for single crystal growth, especially semiconductors and other advanced materials. Molybdenum’s high purity and inertness make it suitable for crystal growth processes.
3. High Temperature Processing: Due to their ability to withstand extreme heat and harsh environments, these crucibles are used in high temperature applications such as the production of ceramics, glass and other high temperature materials.
4. Research and development: Molybdenum crucibles are used in various research and development activities, including high-temperature experiments, material testing and production of special materials.
DETAILS IMAGES
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Customized
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MANUFACTURING TECHNIQUE
Powder Mixing
Powder is mixed according to the ratio of the fired product
Cold isostatic pressure
The mixed powder is loaded into a mould and pressed into a cold isostatic press to form a billet.
Powder Forming
The powder is pressed into shape by high pressure, but the powder itself does not have the physical properties of metal.
Medium Frequency Furnace Sintering
High-temperature heating causes impurities in the billet to volatilise, increasing its density and giving it the physical properties of a metal.
Rolling Steel
Thick plates are hot rolled, heated into the mill thin plates are cold rolled, the thinnest can be done 0.07
Forge
For thicker rods, use free forging. For thinner rods, use rotary forging.
Cuts
Plate cutting method waterjet CNC cutting
Cuts
Bar Cutting Method Sawing Machine Wire Cutting
COMPANY PROFILE
CERTIFICATIONS
WHY CHOOSE US
PACKING & DELIVERY
FAQ
Where is your company?
Our company is located in Luoyang, Henan Province, China, which is the cultural capital of the world, with 5,000 years of culture in the millennium capital city.
What are the strengths of your company?
Our company is the source manufacturer, the price has absolute advantages, product quality is absolutely guaranteed, the world's many listed companies and we have many years of co-operation!
Can the quality of the product be guaranteed?
Our company has more than 10 years of experience of professional engineers and testing department, engineers technology is very stable, product quality is guaranteed!
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