Product Code : CE-Si3N4-5N-BR
Silicon Nitride (Si3N4) has the most versatile combination of mechanical, thermal, and electrical properties of any technical ceramic material. It is a high performance technical ceramic that is extremely hard and has exceptional thermal shock and impact resistance. It surpasses most metals high temperature capabilities and has a superior combination of creep and oxidation resistance. Additionally, its low thermal conductivity and high wear resistance make it an excellent material that can withstand the toughest of conditions in the most demanding industrial applications. Silicon Nitride is an excellent choice when high-temperature and high-load abilities are needed. Silicon nitride ceramic is an inorganic material ceramic that does not shrink during sintering. There are five different methods to produce Silicon Nitride including SRBSN, GPSN, HPSN, HIP-SN and RBSN, make the application and working material different slightly. In these 5 methods of production, GPSN is most commonly used to produce Si3N4 components. The strength of silicon nitride, especially hot-pressed silicon nitride, is one of the hardest substances in the world.
Si3N4 Rod is a covalent bond compound with high strength, low density, and high temperature resistance. The silicon nitride nozzles and covers have the characteristics of oxidation resistance, high temperature strength and less sputter adhesion, which can prolong the service life of the welding parts. We provide silicon nitride welding rod, pin and regularly used rods.
Please contact us if you need customized services. We will contact you with the price and availability in 24 hours.
Product | Product Code | Purity | Size | Contact Us |
Product Information
Silicon Nitride (Si3N4) has the most versatile combination of mechanical, thermal, and electrical properties of any technical ceramic material. It is a high performance technical ceramic that is extremely hard and has exceptional thermal shock and impact resistance. It surpasses most metals high temperature capabilities and has a superior combination of creep and oxidation resistance. Additionally, its low thermal conductivity and high wear resistance make it an excellent material that can withstand the toughest of conditions in the most demanding industrial applications. Silicon Nitride is an excellent choice when high-temperature and high-load abilities are needed. Silicon nitride ceramic is an inorganic material ceramic that does not shrink during sintering. There are five different methods to produce Silicon Nitride including SRBSN, GPSN, HPSN, HIP-SN and RBSN, make the application and working material different slightly. In these 5 methods of production, GPSN is most commonly used to produce Si3N4 components. The strength of silicon nitride, especially hot-pressed silicon nitride, is one of the hardest substances in the world.
Si3N4 Rod is a covalent bond compound with high strength, low density, and high temperature resistance. The silicon nitride nozzles and covers have the characteristics of oxidation resistance, high temperature strength and less sputter adhesion, which can prolong the service life of the welding parts. We provide silicon nitride welding rod, pin and regularly used rods.
Synonyms
Trisilicon tetranitride; Nierite
Silicon Nitride Rods Specification
Dimensions
Per your request or drawing
We can customized as required
Properties(Theoretical)
Gas Over-Pressure Sintered
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Hot Pressed
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Hot Isostatic Pressed
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Silicon Nitride Rods Advantages
High strength over a large temperature range
High fracture toughness
Good flexural strength
Mechanical fatigue & creep resistant
Lightweight – Low density
High hardness and wear resistance, both impingement and frictional modes
Superior thermal shock resistance
Low thermal expansion
Electrical insulator
Good oxidation resistance
Good chemical corrosion resistance
Wear resistant
High stiffness
Silicon Nitride Machining
Silicon Nitride can be machined in green, biscuit, or fully dense states. It can be machined relatively easily into complex geometries while in the green or biscuit form. However, the sintering process that is required to fully densify the material causes the body to shrink approximately 20%. This shrinkage means that it is impossible to hold very tight tolerances when machining pre-sintering. In order to achieve very tight tolerances, fully sintered material must be machined/ground with diamond tools. This processes uses a very precise diamond coated tool/wheel to abrade away the material until the desired form is created. This can be a time-consuming and costly process due to the inherent toughness and hardness of the material.
Applications of Silicon Nitride Rods
• Rotating ball bearings & rollers bearings
-Bearing technology in automotive engineering
-Valves, turbocharger rotors for engines
-Diesel engine glow plugs
• Cutting tools
• Engine components: valves, rocker arm pads, seal faces
-Seal Rings
• Induction heating coil supports
• Turbine blades, vanes, buckets
• Welding & brazing jigs -Welding Rollers
• Heating Element components
• Crucibles
• Metal tube forming rolls and dies
-Molten metal handling
• TIG / Plasma welding nozzles
• Weld positioners
• Precision shafts and axles in high wear environments
• Thermocouple sheaths & tubes
• Semiconductor Process Equipment
-Nozzles
-Thermocouple sheaths
-Centering Pins
-Drawing Tools
-High-performance Cutting Tools
-Indexable Inserts
-Tubes and Pipes
-Mechanical Engineering Special Applications
Packing of Silicon Nitride Rods
Standard Packing:
Sealed bags in carton boxes. Special package is available on request.
As a ceramic material, Si3N4 is quite fragile in a lot of cases. The Si3N4 rod are usually held in plastic bags by vacuum, and protected with heavy foam.
ATTs’ Si3N4 rod 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 | Si3N4 |
MDL Number | MFCD00011230 |
EC No. | 234-796-8 |
Beilstein/Reaxys No. | N/A |
Pubchem CID | 3084099 |
IUPAC Name | N/A |
SMILES | N13[Si]25N4[Si] 16N2[Si]34N56 |
InchI Identifier | InChI=1S/N4Si 3/c1-5-2-6(1)3 (5)7(1,2)4(5)6 |
InchI Key | HQVNEWCFYHHQES-UHFFFAOYSA-N |
CAS | 12033-89-5 |