Particle Size : 325 Mesh
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Titanium Silicon Carbide (Ti3SiC2) Powder
Titanium carbide, with its chemical formula Ti3SiC2, is a material that has metal and ceramic characteristics. It is a MAX phase.
Titanium silica carbide (Ti3SiC2), a new type ceramic material with ternary layers that combine the properties of ceramic and metal, is an innovative ceramic. The material has the best of both metal and ceramic properties. It can be used as metal because it has high electrical and thermal conductivity at low temperatures. Good plasticity, friction coefficient, and better self-lubricating properties than graphite.
Titanium Silicon Carbide is a unique ceramic due to its ceramic and metal properties. It is therefore suitable for mechanical as well as electrical applications. For instance, it has a high level of thermal and electrical conductivity as well as moderate oxidation resistance. The material is also able to be processed with tools made of hardened steel and has a very high elongation upon breaking at high temperature.
This novel material is highly attractive to both materials scientists as well as physicists. The material’s remarkable properties include a high melting temperature, high strength and modulus as well as high thermal and electric conductivity.
Titanium silicon carbide is a ceramic material that is promising. However, it is also widely used for combining the advantages of metals with ceramics. Titanium Silicon Carbide (Ti3SiC2) is a promising ceramic material with a melting temperature of 3200degC. Ti3SiC2 also has good thermal and electrical conductivity. Ti 3 SiC2 is not only a structural ceramic, but can also be attractive for applications such as commutation combs due to its thermal conductivity. If you’re interested in purchasing Titanium Silicon Carbide (Ti3SiC2) Powder in large quantities, please send us an email to receive the latest pricing.
Titanium Silicon Carbide powder Ti3SiC2:
What is Titanium Silicon Carbide Ti3SiC2 powder produced?
A method for reducing titanium oxide with a silicon carbide/silicon powder mixture at 1550degC under vacuum. In order to synthesize Ti3SiC2, a powder mix that does not include pure titanium is used. The presence of titanium powder in the mixture is problematic, as it is oxidizing and explosive when finely divided.
Solid-phase reactions are used to produce titanium silicon carbide. A small amount of Tic is present in the reaction product. The solid-phase reaction of TiSi with graphite is not a simple way to make pure titanium silica carbide. The multi-step process is used to produce pure titanium silicon carburide. The process is described below:
In the first stage, TiSi is mixed with graphite at a molar proportion of 0.420.290.29 and then pressed into a sample piece. The test piece in an evacuated silicone test tube is treated at 1100degC (10h) to obtain a mix of TSiC2,TiC and TiSiC.
Second, remove TiSi2 by using hydrofluoric.
TiS+12(HF)Yi (TiF)+2SF+6H2
The third stage is to oxidize TiC into TiO2 by exposing it to air at 450°C and 450°F for 10 hours. After that, dissolve the TiO2 using (NH)SO or HSO at 100°C. The final solid phase product is titanium silicon carbide powder (TisSiC2).
To produce a bulk material from the powder obtained by the method above, it is necessary to sinter at high temperatures.
Technical Parameter of Titanium Silicon Carbide powder Ti3SiC2:
Applications
Titanium Silicon Carbide (Ti3SiC2) Powder
As a result, it is important to avoid damp reunion as this will negatively affect the performance of Ti3SiC2 and its use. Therefore, Ti3SiC2 titanium silicon carbide powder should be stored in a dry and cool room. Ti3SiC2 Powder should not be stressed.
Shipping & Packing of Titanium Silicon Carbide (Ti3SiC2) Powder
The packing we use depends on how much titanium silicon carbide Ti3SiC2 is in the powder.
Titanium silicon carbide Ti3SiC2 packing Vacuum packaging 100g,500g or 1kg/bag or 25kg/barrel or your request.
Shipping of titanium silicon carbide (Ti3SiC2) powder After payment, you can ship your order by air, sea or express.
Titanium carbide, with its chemical formula Ti3SiC2, is a material that has metal and ceramic characteristics. It is a MAX phase.
Titanium silica carbide (Ti3SiC2), a new type ceramic material with ternary layers that combine the properties of ceramic and metal, is an innovative ceramic. The material has the best of both metal and ceramic properties. It can be used as metal because it has high electrical and thermal conductivity at low temperatures. Good plasticity, friction coefficient, and better self-lubricating properties than graphite.
Titanium Silicon Carbide is a unique ceramic due to its ceramic and metal properties. It is therefore suitable for mechanical as well as electrical applications. For instance, it has a high level of thermal and electrical conductivity as well as moderate oxidation resistance. The material is also able to be processed with tools made of hardened steel and has a very high elongation upon breaking at high temperature.
This novel material is highly attractive to both materials scientists as well as physicists. The material’s remarkable properties include a high melting temperature, high strength and modulus as well as high thermal and electric conductivity.
Titanium silicon carbide is a ceramic material that is promising. However, it is also widely used for combining the advantages of metals with ceramics. Titanium Silicon Carbide (Ti3SiC2) is a promising ceramic material with a melting temperature of 3200degC. Ti3SiC2 also has good thermal and electrical conductivity. Ti 3 SiC2 is not only a structural ceramic, but can also be attractive for applications such as commutation combs due to its thermal conductivity. If you’re interested in purchasing Titanium Silicon Carbide (Ti3SiC2) Powder in large quantities, please send us an email to receive the latest pricing.
Titanium Silicon Carbide powder Ti3SiC2:
Titanium silicon carbide Ti3SiC2 Powder has high strength and modulus of elastic, as well as high thermal conductivity and electric conductivity.
What is Titanium Silicon Carbide Ti3SiC2 powder produced?
A method for reducing titanium oxide with a silicon carbide/silicon powder mixture at 1550degC under vacuum. In order to synthesize Ti3SiC2, a powder mix that does not include pure titanium is used. The presence of titanium powder in the mixture is problematic, as it is oxidizing and explosive when finely divided.
Solid-phase reactions are used to produce titanium silicon carbide. A small amount of Tic is present in the reaction product. The solid-phase reaction of TiSi with graphite is not a simple way to make pure titanium silica carbide. The multi-step process is used to produce pure titanium silicon carburide. The process is described below:
In the first stage, TiSi is mixed with graphite at a molar proportion of 0.420.290.29 and then pressed into a sample piece. The test piece in an evacuated silicone test tube is treated at 1100degC (10h) to obtain a mix of TSiC2,TiC and TiSiC.
Second, remove TiSi2 by using hydrofluoric.
TiS+12(HF)Yi (TiF)+2SF+6H2
The third stage is to oxidize TiC into TiO2 by exposing it to air at 450°C and 450°F for 10 hours. After that, dissolve the TiO2 using (NH)SO or HSO at 100°C. The final solid phase product is titanium silicon carbide powder (TisSiC2).
To produce a bulk material from the powder obtained by the method above, it is necessary to sinter at high temperatures.
Technical Parameter of Titanium Silicon Carbide powder Ti3SiC2:
| Product Name | MF | Purity | Particle Size | Weight in Molecular Number | Density | Color |
| Titanium Silicon Carbide | Ti3SiC2 | 99% | 325 Mesh | 196 | 4.53 g/cm3 | Black |
Ti3SiC2 Powder is used for MAX Special Ceramic Materials, Electronic Materials, High-Temperature Structural Materials, Electrode Brush Material, Chemical Anti-Corrosion Materials and High-Temperature Heating materials.
Titanium silicon carburide offers many benefits of both ceramics and metal. Like metal, titanium silicon carbide is an excellent conductor of heat and electricity. It is easily processed, soft, not sensitive to thermal shocks, and displays plasticity even at high temperature. Like ceramics, it is resistant to oxidation. The strength at high temperatures is greater than all high temperature alloys.
The electrical conductivity is twice as high for titanium silicon carbide, a high temperature material. It has obvious benefits as a brush in transitional AC Motors. Its thermal shock and oxidation resistance are comparable to SiN. Metal smelted electrodes can be used because of their good thermal resistance and high electrical conduction. Summary: Titanium silicon carbide has important application and research potential.
As a result, it is important to avoid damp reunion as this will negatively affect the performance of Ti3SiC2 and its use. Therefore, Ti3SiC2 titanium silicon carbide powder should be stored in a dry and cool room. Ti3SiC2 Powder should not be stressed.
Shipping & Packing of Titanium Silicon Carbide (Ti3SiC2) Powder
The packing we use depends on how much titanium silicon carbide Ti3SiC2 is in the powder.
Titanium silicon carbide Ti3SiC2 packing Vacuum packaging 100g,500g or 1kg/bag or 25kg/barrel or your request.
Shipping of titanium silicon carbide (Ti3SiC2) powder After payment, you can ship your order by air, sea or express.
Titanium Silicon Carbide Particle Properties |
|
| Alternative Names |
Titanium silicocarbide is also known as titanium carbide silicon carbide Composite.
TiSiC2 is a TiSiC |
| CAS Number | 12202-82-3 |
| Compound Formula | Ti3SiC2 |
| Molecular Mass | 195.71 |
| Appearance | Dark Gray Black Powder |
| Melting Point | N/A |
| Boiling Point | N/A |
| Density | 4.5 g/cm3 |
| Solubility In H2O | N/A |
| Thermal Expander | 9×10 6 degC -1 |
Titanium Silicon Carbide Particles Health & Safety Information |
|
| Sign Word | Warning |
| Hazard Statements | H315-H319-H351-H335 |
| Hazard Codes | Xi Xn |
| Risk Codes | R36/37/38 R40 |
| Safety Declarations | N/A |
| Transport Information | NONH for All Transport Modes |