Scientists and physicists have been attracted to the unique properties of this new ceramic material.Particle size: 5- 10 microns
Purity: 99%
Description of the Titanium Aluminum Carbide Ti3AlC2 Maximum:
Physical property
The crystal structure of titanium carbide aluminum 312 belongs to the hexagonal crystal system and is layered. Its primary components are titanium, aluminum and carbon, in which titanium and aluminum atoms are alternately arranged in layers, and carbon atoms are filled in the gaps. This unique structure makes titanium carbide aluminum 312 with high hardness, strength, and toughness.
The density of titanium carbide aluminum 312 is 3.8g/cm³, similar to the thickness of titanium and aluminum, but the specific strength and specific stiffness are higher. In addition, titanium carbide aluminum 312 has good thermal stability and can still perform excellently at high temperatures.
Chemical properties
Titanium carbide aluminum 312 has excellent chemical stability and almost no chemical reaction with other substances at room temperature. Titanium carbide aluminum 312 can maintain good oxidation resistance even at high temperatures.
In addition, titanium carbide aluminum 312 has good high-temperature creep resistance and can be used at high temperatures for a long time. Because of its excellent chemical stability, titanium carbide aluminum 312 has many applications in many chemical industry fields.
Mechanical properties
Titanium carbide aluminum 312 has excellent mechanical properties; its hardness, strength, and toughness are higher than many traditional ceramic materials. At room temperature, the hardness of titanium carbide aluminum 312 can reach 20GPa, and the bending strength can come to 400MPa. In addition, titanium carbide aluminum 312 has good wear and fatigue resistance so that it can maintain good performance under high and cyclic load conditions.
Technical Parameter for Titanium aluminum carbide Ti3AlC2 max Powder :
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73.8
Al
13.76
C
12.24
You can also find out more about P
<0.01%
Ca
<0.01%
Fe
<0.02%
S
<0.005%
Si
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Production Method of Titanium aluminum carbide Ti3AlC2 Max
:
Carbothermal reduction method
The carbothermic reduction method is used to prepare titanium carbide aluminum 312, and its basic principle is to carry out a carbothermic reduction reaction of aluminum, titanium and carbon oxides at high temperatures to produce titanium carbide aluminum 312. The advantage of this method is that the process is relatively simple, and high-purity titanium carbide aluminum 312 can be prepared. However, the disadvantage of this method is that it requires the use of high-purity raw materials and needs to react at high temperatures, resulting in higher costs.
Mechanical alloying method
The mechanical alloying method is a method to prepare titanium carbide aluminum 312, and the basic principle is to prepare titanium carbide aluminum 312 by automatically alloying aluminum, titanium, and carbon powder. The advantages of this method are that it can use low-cost raw materials and can prepare titanium-aluminum carbide 312 with different particle sizes and properties by controlling reaction conditions. However, the disadvantage of this method is that it requires a high-energy ball mill and other equipment, and the preparation cycle is long.
Chemical vapor deposition method
It is a method to prepare titanium carbide aluminum 312, and its basic principle is to chemically react to the vapor of aluminum, titanium and carbon compounds at high temperatures to produce titanium carbide aluminum 312. The advantages of this method are that Ti Al312 products with complex shapes can be prepared, and Ti Al312 with different structures and properties can be designed by controlling reaction conditions. However, the disadvantage of this method is that it requires high-purity raw materials and the preparation cycle is long.
Pulse electrodeposition method
Pulsed electrodeposition is a method for preparing titanium-aluminum-312 carbide. Its basic principle is to reduce the ions of aluminum, titanium and carbon to titanium-aluminum-312 carbide on the cathode under the action of pulsed current. The advantages of this method are that titanium-Al312 carbide can be prepared directly on the cathode, and titanium-Al312 carbide with different structures and properties can be prepared by controlling the size and frequency of the pulse current. However, the disadvantage of this method is that it requires electrolytes, and the preparation cycle is long.
Sol-gel method
The sol-gel method is a method for the preparation of titanium carbide aluminum 312, and the basic principle is to dissolve aluminum, titanium and carbon compounds in organic solvents to form sol and then gel and carbonize under certain conditions to prepare titanium carbide aluminum 312. The advantages of this method are that it can use low-cost raw materials and can prepare titanium-aluminum carbide 312 with different particle sizes and properties by controlling reaction conditions. However, the disadvantages of this method are that it requires the use of organic solvents and the preparation cycle is long.
Applications of Titanium aluminum carbide Ti3AlC2 Max:
Aerospace field:
Titanium carbide aluminum 312 has a high melting point and low-density characteristics, making it an ideal material for high-temperature gas components in aerospace. In the engine, titanium carbide aluminum 312 can manufacture high-temperature components such as combustion chambers, nozzles, and turbine blades, which can withstand high-temperature gas corrosion and high-temperature friction and wear.
Automotive sector:
Titanium carbide aluminum 312 also has a wide range of applications in the automotive field. In addition, titanium carbide aluminum 312 can also be used to manufacture automotive brake pads and clutch pads, which can withstand high-temperature friction and wear and improve the safety and reliability of the car.
Electronic field:
Titanium carbide aluminum 312 has good thermal conductivity and can effectively dissipate heat, so it is also widely used in electronics. It can be used to manufacture electronic device substrates, connectors, terminals, etc., to improve their reliability and stability. In addition, titanium carbide aluminum 312 can also be used to manufacture precision devices such as optical fiber connectors and optical fiber cutting knives, which can meet electronic equipment's high precision and stability requirements.
In the nuclear energy sector:
Titanium carbide aluminum 312 has excellent corrosion resistance and high-temperature properties, so it is also widely used in nuclear energy. It can make fuel elements and structural components in nuclear reactors that can withstand extreme environments such as high temperature, high pressure and radiation. In addition, titanium carbide aluminum 312 can also be used to manufacture precision components such as control rods and guide tubes in nuclear reactors, which can meet the high precision and high stability requirements of nuclear energy equipment.
Biomedical field:
Titanium carbide aluminum 312 has excellent biocompatibility and wear resistance and is also widely used in the biomedical field. It can be used to manufacture artificial joints, dental plants, and other medical devices, which can be compatible with human tissues and have good wear and corrosion resistance. In addition, titanium carbide aluminum 312 can also be used to manufacture alternative materials for biological tissues, such as blood vessels, trachea, and other medical devices, with high precision and stability requirements.
Storage condition of titanium aluminum carbide Ti3AlC2 max powder : Titanium Aluminum Carbide Ti3AlC2 Powder should be stored at a temperature that is cool, dry, and air-tight.
Shipping & Packing of Titanium aluminum carbide powder Ti3AlC2 max : Double plastic bags are used to protect it and can be vacuumed up with argon. Titanium Aluminum Carbide Ti3AlC2 Maximum Powder packaging: vacuum packing in 100g, 500g and 1kg bags, 25kg barrels, or your requirements.
Shipping Titanium aluminum carbide powder Ti3AlC2Max Powder: could also be sent by air or express once payment is received.