The unique properties of Titanium Aluminum Carbide have attracted the attention of both material scientists as well as physicists. Purity: 99% Particle Size : 10um
The following is a list of the most recent articles about
Titanium Aluminum Carbide Ti2AlC Powder
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Chemical property
Ti2AlC powder is a compound composed of three elements, titanium, aluminum and carbon, in which the atomic ratio of Ti, Al and C is 2:1:1. This compound has stable chemical properties, does not react with water and air at room temperature, and has good chemical stability. In addition, Ti2AlC powder has a very high melting point of about 2950 ° C, which allows it to remain stable in high-temperature environments.
Physical properties
Density: The density of Ti2AlC powder is about 3.56g/cm³, which is lower than metal materials such as titanium and aluminum, which makes it a lightweight and high-strength material.
Hardness: The hardness of Ti2AlC powder is very high, reaching more than Hv2000, which makes it an ideal wear-resistant material.
Crystal structure: The crystal structure of Ti2AlC powder is a hexagonal lattice, which makes it have good high-temperature stability and mechanical properties.
Thermal conductivity: Ti2AlC powder has excellent thermal conductivity and can effectively transfer heat, making the material stable in high-temperature environments.
Electrical properties: Ti2AlC powder has good electrical properties, including conductivity and insulation, and can be used to manufacture electronic devices and circuits.
Mechanical properties
Ti2AlC powder has excellent mechanical properties. In addition, Ti2AlC powder also has high fatigue and high-temperature strength and can maintain stable mechanical properties in high-temperature environments. This makes it an ideal material for manufacturing high-performance components such as aerospace engine parts, automotive engine parts, and more.
Technical Parameter of Titanium Aluminum Carbide powder Ti2AlC:
Product Name
MF
Purity
Particle Size
Molecular Weight
Melting Point
Color
Titanium Aluminum Carbide
Ti2AlC
99%
<10um
195.7
2000
Gray Black
Production Method of Titanium Aluminum Carbide Ti2AlC Powder:
Carbothermal reduction method
Carbothermal reduction is one of the most common methods for preparing Ti2AlC powder. The method is to react titanium, aluminum and carbon oxides or halides at high temperatures to produce Ti2AlC powder. The specific steps are as follows:
The oxides or halides of titanium, aluminum and carbon are mixed proportionately to make a mixture.
The mixture is heated to high temperatures, usually above 1500 ° C.
The mixture is reacted with carbon at high temperatures to produce Ti2AlC powder.
The resulting Ti2AlC powder is collected and post-processed, such as crushing, screening, etc.
The advantages of the carbothermal reduction method are a simple preparation process, low cost and easy industrial production. However, this method has some disadvantages, such as using high-temperature equipment and the reaction process producing harmful gases.
Mechanical alloying method
The mechanical alloying method mixes titanium, aluminum, and carbon powder and sinters at high temperatures to prepare Ti2AlC powder. The specific steps are as follows:
The titanium, aluminum, and carbon powders are mixed proportionately to make a mixed powder.
The mixed powder is loaded into a high-temperature furnace for high-temperature sintering, usually at temperatures above 1500 ° C.
The mixed powder is sintered at a high temperature to produce Ti2AlC powder.
The resulting Ti2AlC powder is collected and post-processed, such as crushing, screening, etc.
The advantage of mechanical alloying is that high-purity Ti2AlC powder can be prepared while avoiding high-temperature equipment. However, this method has disadvantages, such as a long preparation cycle and high cost.
The self-propagating high-temperature synthesis method synthesizes Ti2AlC powder by heating mixed raw materials. The specific steps are as follows:
The titanium, aluminum, and carbon powders are mixed proportionately to make a mixed powder.
The mixed powder is heated in a high-temperature furnace, usually above 1500 ° C.
The mixed powder is heated at a high temperature to cause it to react to produce Ti2AlC powder.
The resulting Ti2AlC powder is collected and post-processed, such as crushing, screening, etc.
The advantages of self-propagating high-temperature synthesis are a simple preparation process, high speed, and large-size Ti2AlC material can be prepared. However, this method also has some disadvantages, such as the need to use high-temperature equipment and high raw material purity requirements.
Applications of Titanium Aluminum Carbide Ti2AlC Powder
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Aerospace field
Ti2AlC powder has excellent mechanical properties and high-temperature stability, making it ideal for manufacturing aerospace engines and spacecraft structural parts. In aerospace, Ti2AlC powder can manufacture critical components such as high-temperature turbine blades, combustion chambers, and tail nozzles to improve engine performance and reliability. In addition, Ti2AlC powder can also be used to manufacture spacecraft structural parts, such as satellite supports, solar panels, and so on.
The automotive field
Ti2AlC powder has excellent mechanical properties and corrosion resistance, making it an ideal material for manufacturing automotive engine parts and brake pads. In the automotive sector, Ti2AlC powder can be used to manufacture engine components such as valves, cylinders and pistons to improve engine performance and reliability. In addition, Ti2AlC powder can also be used to manufacture brake pads with high strength, wear resistance and good corrosion resistance.
The nuclear industry
Ti2AlC powder has excellent high-temperature resistance and mechanical properties, making it an ideal material for manufacturing nuclear reactor components. In the nuclear industry, Ti2AlC powder can be used to manufacture critical components such as fuel elements and control rods in nuclear reactors to improve the performance and reliability of nuclear reactors. In addition, Ti2AlC powder can also be used to manufacture critical components such as shields and seals in atomic reactors.
The electronic field
Ti2AlC powder has excellent electrical conductivity and high-temperature stability, making it an ideal material for manufacturing electronic devices and circuits. Ti2AlC powder can be used in electronics to manufacture electronic packaging materials, components, etc., to improve the performance and reliability of electronic devices. In addition, Ti2AlC powder can also be used to manufacture high-temperature electronic devices and circuits to meet the needs of high-temperature environments.
Biomedical field
Ti2AlC powder has good biocompatibility and bioactivity, making it an ideal material for manufacturing biomedical materials. In the biomedical field, Ti2AlC powder can be used to manufacture biomedical devices such as artificial joints, dental implants, and bone repair materials to improve the performance and reliability of medical devices. In addition, Ti2AlC powder can also be used to manufacture biomedical reagents such as drug carriers and biological detection reagents.
Store Titanium Aluminum Carbide powder Ti2AlC according to the instructions.
Ti2AlC Ti2AlC Powder should be stored in a dry and cool room. Titanium aluminum carbide cannot be exposed to the air. Ti2AlC Powder should not be exposed to stress.
Shipping & Packing of Titanium Aluminum Carbide (Ti2AlC) Powder
The packing we use depends on the quantity of titanium aluminum carbide Ti2AlC. Titanium aluminum carbide powder:
The vacuum packaging can be 100g,500g or 1kg per bag, 25kg per barrel or to your specifications.
Titanium Aluminum Carbide Ti2AlC Powder Shipping
Upon receipt of payment, goods can be shipped by air, sea, or express as soon a possible.
Titanium Aluminum Carbide Powder Properties
Alternative Names
Ti2AlC MAXene Phase is Ti2AlC powder
CAS Number
12537-81-4
Compound Formula
Ti2AlC
Molecular Mass
134.73
Appearance
Dark Gray Black Powder
Melting Point
N/A
Boiling Point
N/A
Density
3.99 g/cm3
Solubility In H2O
N/A
Thermal Expander
N/A
Health & Safety information about Titanium Aluminum Carbide Powder