Finding the Best Titanium Carbide Powder Suppliers
Views : 145
Update time : 2022-11-22 11:50:40
Whether you are looking to find the best titanium carbide powder for your needs, or you are searching for the best titanium carbide powder suppliers, there are many factors to consider. The first is the safety, health and environmental regulations that apply to titanium carbide powder. After that, you will need to determine the properties and applications of titanium carbide powder.
Titanium Carbide Powder Chemical Formula
Among the transition metal compounds, titanium carbide has a special place. It offers several desirable properties, such as high hardness, thermal conductivity, fire resistance, and abrasion resistance. Therefore, it has earned a high demand in the industry. It is used for manufacturing wear-resistant tools. It also improves the resistance to oxidation. It is also used in coatings.
Titanium carbide has an NaCl-type cubic crystal structure. It has a hardness of 9-9.5 Mohs. It has a thermal expansion coefficient of 7.74 x 10-6/K. It has a melting point of 3140 degC and a boiling point of 4820 degC. Its relative density is 4.93. It is available in high purity and ultra-high purity grades.
Titanium carbide is an important component of hard alloys. It is used in making large capacity hard disk drive memory devices. It is also used in abrasive steel bearings and optical applications. It is a good nucleating agent and provides high wear resistance. It also has a low coefficient of friction. It is also used to coat abrasive steel bearings and to manufacture high-temperature cutting tools. It is also used as electrodes in arc lamps.
Nano Titanium Carbide (NTC) has good electrical and thermal conductivity. It also has a high Young's modulus. It can be soluble in aqua regia and nitric acid. It has a cubic crystal structure and has an attractive gray-white metallic color. It can be used as a substitute for graphite. It has a high melting point, and has the potential for use in aerospace components.
Titanium carbide is manufactured by heating titanium powder with carbon powder in an electric furnace. The temperature of the furnace should be 1500-1700 degC. This chemical reaction takes about 5-20 hours to complete. The resultant powder is then pulverized to obtain the powder product. The powder product is then calcined at 400 degC for 400 min. This process improves the quality of the titanium carbide.
Titanium carbide is an excellent material for making wear-resistant tools and coatings. It also improves the oxidation resistance and red heat resistance of the materials.
Titanium Carbide Powder Properties
Various researches have been carried out on titanium carbide powder properties. The properties of titanium carbide powder include high melting point, low electrical resistivity and a high enthalpy of formation. In addition to these, it has a high resistance to softening at high cutting temperatures. Therefore, it is a very attractive material for advanced applications. In addition, it has a wide stoichiometric range.
As a result of its high hardness, titanium carbide is an ideal material for wear-resistant parts. In addition, its good electrical conductivity and chemical stability make it an excellent electrode material. Therefore, it is also a good material for electrodes and electrical contact materials. In addition, it can be used as a coating material. In addition, it can be used as diamond coating and roadheader pick coating.
In this study, the effect of titanium carbide particles on the properties of stainless steel matrix composites was investigated. The particles of titanium carbide had been deposited onto the samples of AISI 316L steel. The resulting sintered density was measured and compared with the theoretical density. The results revealed that the density of the composites was three times lower than that of AISI 316L steel.
Moreover, the density of the composites was found to be influenced by the content of titanium carbide particles. As the number of titanium carbide particles increased, the density of the composites decreased. This is because the pores in the studied composites have irregularly shaped sizes. Moreover, the particles tend to concentrate in grain boundaries. Therefore, the pore size in the studied composites is smaller. The results reveal that the particles of titanium carbide have a strong influence on the properties of stainless steel matrix composites.
In addition, the porosity of the studied composites is also influenced by the content of titanium carbide. The pores in the studied composites are mostly filled with small TiC particles. The density of the pores decreased with the increase in the content of titanium carbide particles. However, the total porosity of the composites increased with the increase in the titanium carbide content.
Titanium Carbide Powder Applications
Currently, there are several applications of titanium carbide powder. Titanium carbide powder is used in various conductive and coating applications. It is particularly useful in producing specialized coatings for high-temperature hardness. It is also used as an electrical contact material coating. It is widely used in aerospace, welding and oil exploration.
Titanium carbide is a crystalline substance with a cubic system structure. It has a lattice constant of 4.329 A. Titanium carbide is very hard. It has excellent corrosion resistance and good conductivity. It is widely used in various fields, including hard alloys, electrical contact materials coating, roadheader pick coating, and specialized coatings for high-temperature hardness.
Titanium carbide powder is used as the initial raw material in the production of cermet tools. It can improve the hardness of the tool and extend its lifetime by 3-5 times.
Currently, there are several methods for the synthesis of titanium carbide powder. The methods include liquid-phase synthesis, gas-phase synthesis, and core-shell type synthesis. These methods can produce highly pure fine titanium carbide powder. The particles in this powder are of maximum size 100 nm or less. These powders can be sintered at lower temperature, resulting in enhanced sinterability. The fine particle size helps suppress grain growth during sintering.
For the core-shell type synthesis, titanium carbide powder is dispersed in a matrix of ceramic powder. The ceramic particles are covered with particles of highly-pure fine titanium carbide powder. The particles are also covered with an alumina powder, which prevents the aggregation of the powder. This powder can be sintered and produced into cutting tools. Compared with oxide foam ceramics, the titanium carbide foam ceramic has a higher strength and hardness. It also has good wear resistance.
The production method of this composite powder is disclosed in Patent Publication 2. It requires heat treatment at 1350deg C. The transition metal content in the powder is set at one wt %. The titanium carbide content is 0.03 wt %. The precursor solution is a mixture of a carbon source and an organic solvent. The precursor solution is mixed with the ceramic powder and then the powder is dried.
Safety, health, and environmental regulations
Despite its low toxicity, titanium carbide powder can be hazardous to health. It is also a fire hazard. The substance is listed on the United States Domestic Substances List (USDSL), the Canadian Domestic Substances List (CDSL), and the Environmental Protection Agency Chemical substance inventory.
Depending on the method used to handle the powder, it may be hazardous to respiratory and eye health. To minimize the risk of exposure, employees should wear impermeable gloves, eye protection, and respirators for high concentrations. They should also sweep up spills into a suitable container. If possible, the spills should be moistened to prevent dusting.
The environmental effects of titanium carbide powder have not been fully studied. In addition, some of the adverse effects of this substance have been observed in laboratory animals. Inhalation of coal dust has also been reported to cause lung tissue irritation.
In addition to the GHS02 signal word, titanium carbide powder is also considered to be an irritant. It is a primary irritant to the eyes, skin, and mucous membranes. Inhalation of dust can cause coughing, soot, pneumoconiosis, and other respiratory illnesses.
To minimize the risk of exposure, the worker should wear impermeable gloves, eyewear, and a P2 filter respirator for harmful particles. If the worker is exposed to dust, they should moisten the spill and sweep it into a container. The worker should also wear a self-contained breathing apparatus (SCBA) for all firefighting activities.
In addition, the substance may be subject to the Stockholm Convention on Persistent Organic Pollutants. The product should be disposed of according to Federal, State, and Local regulations. If the product is packaged, the packaging should be disposed of according to official regulations.
The substance is not listed on the REACH Regulations. The substance or mixture may be subject to other international regulations. Depending on the substance or mixture, it may also be subject to the Rotterdam Convention. The substance is not considered to be toxic to aquatic organisms.
In addition, this substance is not considered to be toxic to the nervous system. This is because the chemical is considered to be physiologically inert.
Titanium Carbide Powder Price
The price is influenced by many factors including the supply and demand in the market, industry trends, economic activity, market sentiment, and unexpected events. If you are looking for the latest titanium carbide powder price, you can send us your inquiry for a quote. ([email protected])
Titanium Carbide Powder Supplier
Luoyang Tongrun Nano Technology Co. Ltd. (TRUNNANO) is a trusted titanium carbide powder manufacturer and TiC powder supplier with over 12-year-experience. We ship our goods all over the world.
If you are looking for high-quality titanium carbide powder, please feel free to contact us and send an inquiry. ([email protected])
