Purity: 99%
Learn more about Titanium Carbide powder
Formula for Titanium carbide It is TiC Its molecular mass is 59.89. Cubic lattice solid gray-colored, metal-like faces. Titanium carbide melting point Is 3140+-90degC Titanium carbide Point boiling It is 4820°C. The relative density is 4.93. It is harder than 9. Water insoluble, aqua regia soluble in nitric acids and water. TiC compound Air is stable when it’s lower than 800. It can be corroded by oxygen when it’s higher than 2000.
TiC Titanium carbide This refractory ceramic material is very hard, with a Mohs 9-9.5, similar to that of tungsten carbide. It appears as a dark powder with a crystal structure of sodium chloride (face center cubic). It has an elastic modulus around 400 GPa and a shear modus of 188 GPa.
Titanium carbonide can be seen in nature as the very rare mineral Rhodochrosite. (TiV, Fe), C. It is located near Uzbekistan’s border in the Chagar Region of the Soviet Union. The crystals are ranging in size from 0.1 to 0.33 mm.
To receive the latest information, send us an inquiry Prices for titanium carbide Please fill out the form below if you wish to Titanium Carbide Powder available In bulk.
Titanium Carbide TiC Pulp – Properties
Technical Parameters of Titanium Carbide Powder TiC Powder
It is simple. Titanium Carbide TiC Pulver produced?
There are many methods to make titanium carbide. The most commonly used are these:
1. Carbothermic method of reduction
Use carbon black to reduce TiO2, the reaction temperature range is 1700-2100, and the chemical reaction formula is TiO2(s)+3C(s)=TiC(S)+2CO(g).
2. Direct carbonization
TiC can be created when Ti powder and carbon are combined. It is a chemical reaction that produces TiC. It is very difficult to produce sub-micron level Ti powder. This limit is why this technique is not widely used. It takes between five and twenty hours for the above reaction to occur. The reaction is also difficult to monitor. Further grinding of the reactants is needed to make fine particles. Granular TiC powder. To obtain a more pure product it is important to chemically remove the fine powder from ball milling.
3. Chemical vapor deposition
A synthesis process uses the reaction of TiCl4,H2 and C. This reactant is heated to form hot tungsten and carbon monofilaments, which then allows TiC crystals to grow on that monofilament. There are strict quality and output limits for the TiC powder produced by this process. Due to TiCl4 (the product), the HCl in it can be strongly corrosive so it’s important that you take care when synthesizing them.
4. Sol-gel method
Method for making small particles by mixing materials thoroughly and dispersing them with a solution. Although it has some advantages such as good chemical uniformity and small particles size, narrow distribution and low heat treating temperature, this method is complicated and can result in large drying shrinkage.
5. Microwave technique
Nano TiO2 (or carbon black) can be used as raw materials. Next, apply the principle of carbothermal reduction to heat the material using microwave energy. The high frequency electric field converts microwave energy to heat energy by using the dielectric losses of the materials. This is how nano-TiO2O2 and carbon can be made into TiC.
6. Blast impact method
Mix the titanium dioxide powder with the carbon powder in a specific proportion. To make the precursor, a Ph10mmx5mm cylinder is used. It has a density of 1.5g/cm3. The laboratory is then placed inside a metal-constrained outer tube. It is best to use a homemade explosion container. Then, after the explosion shock wave has subsided, you can collect the detonationash. The large impurities like iron filings and other small particles are removed during the preliminary sieving. The brownish-colored black powder is soaked for 24 hours in aqua regia, then put into a muffle furnace for 400 minutes. Finally, it’s calcined at 400 degrees Celsius for a fine silver-gray color.
7. Carothermic low-frequency high-frequency reduction technique
The pigment-grade titanium dioxide and charcoal powder should be weighed and mixed at 1:3 or 1:4. Next, mill the materials on a planetary mill at 300-400r/min for six to ten hours. The tablet press should form a small block measuring 2cmx2cmx4cm. Finally, the material can be placed into the graphitecrucible. Add argon gas to protect the area. Slowly adjust the current on the high frequency induction equipment until it is 500A. This will cause the material to go through a carbothermal transformation. Allow it to sit for 20 minutes. Once the heat preservation has been completed, the product reduced to room temperature is cooled under an atmosphere of argon. Then, take out the material and grind and crush it until you get ultra-fine Titan carbide powder.
TiC Titanium Carbide TiC:
Most people use titanium carbide to create cemented carbide. This is also used for electrodes and abrasives in arc lamps.
1. Use titanium carbide powder for high-temperature heat spraying, welding, materials, hard films, military aviation, and hard alloys, as well as cermets.
2. In order to increase wear resistance in thermostors, Titanium carbide can be used.
3. A NaCl-type cubic structure of Titanium carbide is used to make the powder. TiC-WC solid solutions with WC are formed by adding 6% to 30% TiC to the WC-Co cemented caride. This will increase the alloy’s red heat and wear resistance.
4. Titanium carbide can be used to process steel better than WC-Co Cemented Carbide. It has both anti-oxidation as well as anti-corrosion characteristics.
5. You can make titanium carbide by using alloys like Ni-Mo to create tungsten free cemented carbide. This will increase your turning speed, accuracy, and smoothness.
6. To prepare cermets of titanium carbide. These are used for high-speed steel processing.
7. The wear-resistant coating of titanium carbide on metal components such as knives heads or watch mechanisms is another use for it.
8. Titium carbide coating TiC also serves as thermal insulation in spacecraft’s atmosphere.
Titanium Carbide TiC Pulver Storage Conditions
Titanium Carbide TiC Powder needs to be stored in an airtight container. Additionally, it should not be subject to extreme stress.
Packing and Shipping of Antimony Selenide sb2Se3 powder :
Titanium Carbide Powder Packaging: vacuum packaging, 1kg/bag and 25kg/barrel or as required
Titanium Carbide TiC Pulver shipping: Could be sent by sea, by air or by express once payment receipt is received.
Buffalotours Nano Technology Co. Ltd. (Buffalotours), is a global trusted supplier and manufacturer that produces super high-quality chemical and Nanomaterials.
We can provide high-quality titanium carbide dust. Please contact us to send an inquiry. (brad@ihpa.net)
Formula for Titanium carbide It is TiC Its molecular mass is 59.89. Cubic lattice solid gray-colored, metal-like faces. Titanium carbide melting point Is 3140+-90degC Titanium carbide Point boiling It is 4820°C. The relative density is 4.93. It is harder than 9. Water insoluble, aqua regia soluble in nitric acids and water. TiC compound Air is stable when it’s lower than 800. It can be corroded by oxygen when it’s higher than 2000.
TiC Titanium carbide This refractory ceramic material is very hard, with a Mohs 9-9.5, similar to that of tungsten carbide. It appears as a dark powder with a crystal structure of sodium chloride (face center cubic). It has an elastic modulus around 400 GPa and a shear modus of 188 GPa.
Titanium carbonide can be seen in nature as the very rare mineral Rhodochrosite. (TiV, Fe), C. It is located near Uzbekistan’s border in the Chagar Region of the Soviet Union. The crystals are ranging in size from 0.1 to 0.33 mm.
To receive the latest information, send us an inquiry Prices for titanium carbide Please fill out the form below if you wish to Titanium Carbide Powder available In bulk.
Titanium Carbide TiC Pulp – Properties
TiC, a chemical formula has a molecularweight of 59.89. Gray metallic lustrous crystal solid. The melting point, boiling point, and relative density are 3140-3140. Hardness 9-10. Water insoluble, aqua regia soluble in nitric Acid and water insoluble. It reacts with pure oxygen at 1150 and is therefore stable when the temperature is below 800. Also used for the production of cemented carbide.
Technical Parameters of Titanium Carbide Powder TiC Powder
Ti+C |
C |
S | Si | O | No Carbon |
99.2 | 19.5 | 0.02 | 0.01 | 0.4 | 0.2 |
It is simple. Titanium Carbide TiC Pulver produced?
There are many methods to make titanium carbide. The most commonly used are these:
1. Carbothermic method of reduction
Use carbon black to reduce TiO2, the reaction temperature range is 1700-2100, and the chemical reaction formula is TiO2(s)+3C(s)=TiC(S)+2CO(g).
2. Direct carbonization
TiC can be created when Ti powder and carbon are combined. It is a chemical reaction that produces TiC. It is very difficult to produce sub-micron level Ti powder. This limit is why this technique is not widely used. It takes between five and twenty hours for the above reaction to occur. The reaction is also difficult to monitor. Further grinding of the reactants is needed to make fine particles. Granular TiC powder. To obtain a more pure product it is important to chemically remove the fine powder from ball milling.
3. Chemical vapor deposition
A synthesis process uses the reaction of TiCl4,H2 and C. This reactant is heated to form hot tungsten and carbon monofilaments, which then allows TiC crystals to grow on that monofilament. There are strict quality and output limits for the TiC powder produced by this process. Due to TiCl4 (the product), the HCl in it can be strongly corrosive so it’s important that you take care when synthesizing them.
4. Sol-gel method
Method for making small particles by mixing materials thoroughly and dispersing them with a solution. Although it has some advantages such as good chemical uniformity and small particles size, narrow distribution and low heat treating temperature, this method is complicated and can result in large drying shrinkage.
5. Microwave technique
Nano TiO2 (or carbon black) can be used as raw materials. Next, apply the principle of carbothermal reduction to heat the material using microwave energy. The high frequency electric field converts microwave energy to heat energy by using the dielectric losses of the materials. This is how nano-TiO2O2 and carbon can be made into TiC.
6. Blast impact method
Mix the titanium dioxide powder with the carbon powder in a specific proportion. To make the precursor, a Ph10mmx5mm cylinder is used. It has a density of 1.5g/cm3. The laboratory is then placed inside a metal-constrained outer tube. It is best to use a homemade explosion container. Then, after the explosion shock wave has subsided, you can collect the detonationash. The large impurities like iron filings and other small particles are removed during the preliminary sieving. The brownish-colored black powder is soaked for 24 hours in aqua regia, then put into a muffle furnace for 400 minutes. Finally, it’s calcined at 400 degrees Celsius for a fine silver-gray color.
7. Carothermic low-frequency high-frequency reduction technique
The pigment-grade titanium dioxide and charcoal powder should be weighed and mixed at 1:3 or 1:4. Next, mill the materials on a planetary mill at 300-400r/min for six to ten hours. The tablet press should form a small block measuring 2cmx2cmx4cm. Finally, the material can be placed into the graphitecrucible. Add argon gas to protect the area. Slowly adjust the current on the high frequency induction equipment until it is 500A. This will cause the material to go through a carbothermal transformation. Allow it to sit for 20 minutes. Once the heat preservation has been completed, the product reduced to room temperature is cooled under an atmosphere of argon. Then, take out the material and grind and crush it until you get ultra-fine Titan carbide powder.
TiC Titanium Carbide TiC:
Most people use titanium carbide to create cemented carbide. This is also used for electrodes and abrasives in arc lamps.
1. Use titanium carbide powder for high-temperature heat spraying, welding, materials, hard films, military aviation, and hard alloys, as well as cermets.
2. In order to increase wear resistance in thermostors, Titanium carbide can be used.
3. A NaCl-type cubic structure of Titanium carbide is used to make the powder. TiC-WC solid solutions with WC are formed by adding 6% to 30% TiC to the WC-Co cemented caride. This will increase the alloy’s red heat and wear resistance.
4. Titanium carbide can be used to process steel better than WC-Co Cemented Carbide. It has both anti-oxidation as well as anti-corrosion characteristics.
5. You can make titanium carbide by using alloys like Ni-Mo to create tungsten free cemented carbide. This will increase your turning speed, accuracy, and smoothness.
6. To prepare cermets of titanium carbide. These are used for high-speed steel processing.
7. The wear-resistant coating of titanium carbide on metal components such as knives heads or watch mechanisms is another use for it.
8. Titium carbide coating TiC also serves as thermal insulation in spacecraft’s atmosphere.
Titanium Carbide TiC Pulver Storage Conditions
Titanium Carbide TiC Powder needs to be stored in an airtight container. Additionally, it should not be subject to extreme stress.
Packing and Shipping of Antimony Selenide sb2Se3 powder :
Titanium Carbide Powder Packaging: vacuum packaging, 1kg/bag and 25kg/barrel or as required
Titanium Carbide TiC Pulver shipping: Could be sent by sea, by air or by express once payment receipt is received.
Buffalotours Nano Technology Co. Ltd. (Buffalotours), is a global trusted supplier and manufacturer that produces super high-quality chemical and Nanomaterials.
We can provide high-quality titanium carbide dust. Please contact us to send an inquiry. (brad@ihpa.net)
Titanium Carbide Properties |
|
Other Titles | titanium(IV) carbide, TiC powder |
12070-08-5 | |
Compound Formula | TiC |
Molecular Weight | 40.1 |
Appearance | Black Powder |
Melting Point | 3160 degC |
Boiling Point | 4820 degC |
Density | 4.93 g/cm3 |
Solubility of H2O | N/A |
Exact | 59.947946 |
Titanium Carbide Safety & Health Information |
|
Signal word | N/A |
Hazard Statements | N/A |
Hazard Codes | N/A |
Risk Codes | N/A |
Safety statements | N/A |
Transport Information | N/A |
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