Made from pure molybdenum, this crucible has a 99.95% purity.
Description of High Purity Metal Molybdenum Crucible:
High purity: The raw material of the molybdenum crucible is a high-purity molybdenum rod or molybdenum powder, after strict process control, very high purity, with excellent chemical stability and corrosion resistance. Therefore, the molybdenum crucible cannot quickly react with oxygen and water vapor in the air at high temperatures and can maintain stable physical and chemical properties.
High strength: The Molybdenum crucible has increased power, can withstand high temperatures and heavy loads, and has good toughness. This high strength enables the molybdenum crucible to withstand extreme conditions in experimental and industrial applications, such as high temperature, high pressure, impact, etc.
Corrosion resistance: Molybdenum crucible has excellent corrosion resistance and can resist the erosion of various chemical substances at high temperatures. For example, a molybdenum crucible in the laboratory can withstand acid, alkali, salt, and other chemical reagents corrosion. In industrial applications, molybdenum crucibles can be used for various high-temperature chemical reactions and for treating corrosive environments.
Good thermal conductivity: Molybdenum crucible has excellent thermal conductivity and can transfer heat quickly, making the heating and cooling process in experimental and industrial applications more efficient. This good thermal conductivity makes the molybdenum crucible ideal for laboratory and industrial production.
Good electrical properties: Molybdenum crucible has good electrical properties and can be used in various electrical experiments and industrial applications.
Thermal shock resistance: Molybdenum crucible has good thermal shock resistance and can withstand drastic changes in temperature at high temperatures without cracking or fracture. This excellent thermal shock resistance enables the molybdenum crucible to withstand various temperature changes in experimental and industrial applications.
Applications of High Purity Metal Molybdenum Crucible:
Laboratory applications: Molybdenum crucible has a wide range of applications in the laboratory, mainly for various high-temperature experiments and chemical reactions. Molybdenum crucible has high purity, high performance, and stable chemical properties, which can meet the requirements of different laboratory experiments. For example, in materials science, a molybdenum crucible is used to study materials' physical and chemical properties, such as phase transition, crystal structure, and thermal expansion. In chemistry, molybdenum crucible is used for high-temperature synthesis and preparation of various chemical substances. In the biomedical field, molybdenum crucible can be used for high-temperature sterilization and sample processing.
Industrial application: Molybdenum crucible also has a wide range of applications in industry, mainly used to prepare various high-performance materials and products. For example, in the ceramic sector, molybdenum crucible can prepare multiple high-performance ceramic materials, such as silicon nitride and silicon carbide ceramics. In metallurgy, molybdenum crucible can extract and prepare various high-purity metal materials, such as tantalum, niobium, etc. In aerospace, molybdenum crucibles can be used to prepare multiple high-performance aerospace materials, such as superalloys, titanium alloys, etc. In addition, molybdenum crucibles can be used in producing solar cells, nuclear reactor fuel element manufacturing, and other fields.
Nuclear industry: In the nuclear sector, molybdenum crucible can manufacture fuel elements in nuclear reactors. Molybdenum can withstand extreme environments such as high temperatures and radiation in nuclear reactors. Therefore, molybdenum crucible plays an essential role in the nuclear industry.
Environmental protection and sustainable development: With more and more attention to environmental protection and sustainable development, the production and application of molybdenum crucibles also pay attention to environmental protection. For example, in the production process, the molybdenum crucible can use green manufacturing processes and environmentally friendly materials to reduce environmental impact. In the process of use, molybdenum crucible has high efficiency and high reliability, which can reduce energy consumption and waste. In addition, due to the high purity and stable chemical properties of the molybdenum crucible, it can be reused many times, which is conducive to resource conservation and sustainable development.
Technological progress and innovation: With the continuous improvement and innovation of science and technology, molybdenum crucible's performance and application fields have continuously improved. For example, by enhancing the production process and technical parameters, the purity and performance of the molybdenum crucible can be further enhanced. More molybdenum crucible products with unique properties and uses can be developed by studying new application fields and market trends. All these will help promote molybdenum crucible technology's progress and innovation.
Production Method of High Purity Metal Molybdenum Crucible:
Raw material preparation: The raw material of the molybdenum crucible is a high-purity molybdenum rod or molybdenum powder. Before production, strict quality control should be carried out on raw materials to ensure their purity, strength, and chemical composition meet the requirements.
Mold preparation: Prepare the mold according to the shape and size of the required crucible. The mold material is generally alloy steel, resistant to high temperature and wear.
Ingredients and molding: use a molybdenum rod or molybdenum powder according to a certain proportion of ingredients, and thoroughly mix the appropriate amount of binder and lubricant into the mold. Then, the molybdenum crucible of the required shape and size is made by pressing, forming, and dressing.
Sintering: Put the molded molybdenum crucible into the sintering furnace for sintering treatment. The sintering temperature and time are determined according to the product requirements to make the molybdenum crucible have higher strength and corrosion resistance.
Heat treatment: The sintered molybdenum crucible must be heat treated to eliminate internal stress and improve performance. Heat treatment includes quenching, tempering, and other processes.
Surface treatment: After heat treatment, there may be an oxide layer or impurities on the surface of the molybdenum crucible, which needs surface treatment to remove the oxide layer, improve the surface quality, and improve its corrosion resistance and thermal conductivity.
Quality inspection: Quality inspection of the surface-treated molybdenum crucible, including appearance inspection, size inspection, performance testing, etc. Ensure product compliance with relevant standards and customer requirements.
Packaging and transportation: The qualified products are packaged to protect the molybdenum crucible from damage during transport. The packaging materials should be made of moisture-proof and shock-proof materials to ensure the safe delivery of products to customers.
Payments & Transport:
Alloy Metal High Purity Molybdenum Crucible properties
Other Titles
Molybdenum crucible
N/A
Compound Formula
Mo
Molecular Weight
N/A
Appearance
Crucible
Melting Point
N/A
Solubility In Water
N/A
Density
N/A
Purity
N/A
Size
Individualized
Boling point
N/A
Specific Heat
N/A
Thermo Conductivity
N/A
Thermal Expansion
N/A
Young's Module
N/A
Exact
N/A
Monoisotopic
N/A
Heavy Purity Molybdenum Alloy Crucible Safety & Health Information