Place of Origin: | Jiangsu, China (Mainland) |
Brand Name: | BLM-kcf-1 |
Minimum Order Quantity: | 1pcs |
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Price: | FobShanghai usd 3.5-5/pc |
Packaging Details: | packed and labeled according to the regulations and customer's requests.Great care is taken to avoid any damage which might otherwise be caused during storage or transportation. |
Delivery Time: | 25-30 days subject to the clients' requirement and quantity |
Payment Terms: | Western Union, L/C, T/T |
Supply Ability: | 3000 pc/pcs per Month |
Place Of Origin: | Jiangsu,China | Type: | Ceramic Parts |
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Application: | Industrial Ceramic | Material: | Silicon Nitride |
Processing Service: | Welding,Cutting,Moulding,CNC | Color: | Grey |
Compressive Strength: | 488 Mpa | Density: | 3.24g/cm3 |
Thermal Conductivity: | 15 W/m.k | Hardness: | 18 Gpa |
High Light: | High Temperature Resistant Ceramic Rod,Silicon Nitride Ceramic Rod Parts,Si3N4 Ceramic Rod |
Custom Processing Si3N4 High Temperature Resistant Silicon Nitride Ceramic Rod Parts
1 . Descriptions:
Due to its excellent wear resistance, corrosion resistance, high temperature resistance, low density and other properties, ceramic materials are recognized as one of the vibrant new materials in the 21st century. It is listed as the four contemporary engineering materials alongside metal materials, polymer materials, and composite materials.
According to performance and use, ceramic materials are divided into traditional ceramics and advanced ceramics. Advanced ceramics and traditional ceramics are significantly different in terms of raw materials, structure, and preparation techniques. The performance of the two is also very different. Advanced ceramic materials far surpass modern high-quality alloys and polymer materials in certain properties. Therefore, it has a wide range of application value and potential in various industrial fields, such as petroleum, chemical, steel, electronics, textile and automobile industries, as well as cutting-edge technology fields such as aerospace, nuclear industry and military industry.
Silicon nitride (Si3N4) contains three crystal forms, and two crystal forms are common. One is α-Si3N4, needle-like crystal, which is white or off-white, and the other is β-Si3N4, which is darker in color and is dense granular polyhedron or short prism. Both are hexagonal.
A longer stacking order leads to a higher hardness of the α phase than the β phase. However, the α phase is chemically unstable compared to the β phase. So at the high temperature of the liquid phase, the α phase always transforms into the β phase. Therefore, β-Si3N4 is the main form used in silicon nitride ceramics.
2 . Performance characteristics of silicon nitride materials
A . Physical properties of silicon nitride:
a . Thermal properties: It is a high-temperature refractory substance with no melting point. It decomposes at about 1900°C under normal pressure. It has strong creep resistance under high pressure. The softening point of reaction sintered silicon nitride without binder can be as high as 1800°C;
b . Good thermal conductivity;
c . Small thermal expansion coefficient;
d . Good electrical insulation performance, small dielectric coefficient, high breakdown voltage.
B . Chemical properties of silicon nitride:
a . Oxidation resistance: It does not react with oxygen in a dry atmosphere below 800 °C;
b . Molten metal corrosion resistance: silicon nitride does not infiltrate and corrode elemental metal melt (except copper);
c . Resistance to acid, alkali and salt corrosion: easily soluble in hydrofluoric acid, and ineffective with dilute acid.
C. Mechanical properties of silicon nitride:
a . High temperature strength is good, and the high temperature strength at 1200°C has little attenuation compared with the room temperature strength. In addition, its high temperature creep rate is very low. These are determined by the nature of strong covalent bonds;
b . High hardness, second only to a few superhard materials such as diamond, cubic BN, and B4C;
c . The friction coefficient is small and self-lubricating, which is similar to the metal surface with oil.
3 . Application of silicon nitride ceramics
Automotive industry: The main application of sintered silicon nitride is in the automotive industry as an engine part material. In spark ignition engines, silicon nitride is used for lower wear rocker pads, turbochargers for lower inertia and less engine lag, and waste gas control valves for increased acceleration.
Bearings: Compared with other ceramics, silicon nitride ceramics have good impact resistance. Therefore, ball bearings made of silicon nitride ceramics are used in performance bearings. A representative example is the use of silicon nitride bearings in the main engines of NASA's space shuttles. Since silicon nitride ball bearings are harder than metal, this reduces contact with the bearing track. Silicon nitride ball bearings can be found in high-end automotive bearings, industrial bearings, wind turbines, motorsports, bicycles, roller skates and skateboards.
Metal cutting tools: Bulk monolithic silicon nitride is used as a material for cutting tools due to its hardness, thermal stability and wear resistance. Especially recommended for high speed machining of cast iron. Hot hardness, fracture toughness and thermal shock resistance mean that sintered silicon nitride can cut cast iron, hard steel and nickel-based alloys.
Electronics: Often used as insulators and chemical barriers in the manufacture of integrated circuits to electrically isolate different structures or as etch masks in bulk micromachining. As a passivation layer for microchips, it is superior to silicon dioxide because it is a significantly better diffusion barrier to water molecules and sodium ions, two major sources of corrosion and instability in microelectronics.
Core copper wire power cable, each core has an individual colored insulating sheath, all contained within an outer protective sheath. Suspend strings of insulator insulators (vertical lines of discs) on high voltage suspension towers.
Contact Person: Miranda
Tel: +8615250395817
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