A new member of ceramic materials is titanium aluminum carbide, nitride. This ceramic material combines the best of both ceramics and metals. Ti3AlCN powder is known for its excellent mechanical properties at high temperatures.
Purity: 99% Particle Size: 200mesh,400mesh
About Titanium Aluminum Carbide Nitride Ti3AlCN Powder
Structure: The crystal structure of titanium-aluminum carbonitride belongs to the hexagonal crystal system and has a face-centered cubic lattice. In its design, titanium atoms occupy face-centered positions, and aluminum and carbon atoms occupy vertex and center positions, respectively. This unique structure makes titanium aluminum carbonitride with high strength and high hardness.
Color and appearance: Titanium aluminum carbonitride is a gray or black powder, and its particle size is usually in the micron scale.
Density: The density of titanium aluminum carbonitride is about 4.5 g/cm3, which is similar to the thickness of titanium.
Hardness: Due to its complex ceramic characteristics, the hardness of titanium aluminum carbonitride is higher, usually greater than 3000 MPa.
Thermal stability: titanium aluminum carbonitride has good thermal stability at high temperatures and can maintain its structural strength at higher temperatures.
Stability: Titanium aluminum carbonitride is stable at room temperature and pressure, insoluble in water and general acids, but soluble in lye. It has high corrosion resistance to many chemicals, showing good corrosion resistance in many corrosive environments.
Oxidation resistance: Due to the many carbon and nitrogen elements in titanium aluminum carbonitride, it has good antioxidant properties at high temperatures.
Corrosion resistance: Titanium aluminum carbonitride shows good corrosion resistance in many corrosive environments, such as oxidizing acids, alkali solutions, etc.
Strength: Titanium aluminum carbonitride high strength and hardness; its tensile strength and compressive strength are higher than most metal materials.
Toughness: Although the hardness of titanium and aluminum carbonitride is very high, its toughness is relatively good. This allows titanium aluminum carbonitride to maintain good integrity when subjected to shock and vibration.
Technical Parameter for Titanium Aluminum Carbide Nickel Powder Ti3AlCN :
Name of the product
The color of the sky
Titanium Aluminum Nitride
Production Methodof Titanium Aluminum Carbide Nitride Ti3AlCN Powder：
Prepare raw materials
Titanium and aluminum carbonitride mainly include titanium powder, aluminum powder, toner and nitrogen source. Among them, titanium powder and aluminum powder are the leading metal raw materials, carbon powder is a nitriding agent, and nitrogen source is used to provide nitrogen. High-purity titanium powder, aluminum powder and toner are usually used as raw materials to ensure the purity and performance of the product.
The titanium powder, aluminum powder and toner are mixed proportionately to form a uniform mixture. Mixing, ball milling, and stirring can obtain a uniform mixing effect.
The mixture is placed in a nitriding furnace where it is nitrided under high temperature and pressure. In the nitriding process, the carbon powder reacts with nitrogen to form CNx, which reacts with titanium powder and aluminum powder to form titanium aluminum carbonitride. High-temperature and high-pressure nitriding furnaces usually achieve higher reaction temperatures and pressures.
Grinding and grinding
After the nitriding treatment, the resulting titanium and aluminum carbonitride are crushed and ground to obtain the desired product particle size. Grinding can be mechanical grinding, air grinding, or ball milling.
After grinding and grinding, the resulting titanium aluminum carbonitride needs to be post-treated to improve its properties. Post-treatment mainly includes heat treatment, atmosphere control and surface treatment.
Applicationes of Titanium Aluminum Carbide Nitride Ti3AlCN Powder
Titanium aluminum carbonitride has high strength, hardness, and excellent wear and oxidation resistance, making it an ideal choice for structural materials. In the automotive sector, titanium and aluminum can manufacture high-performance automotive components, such as engine components, brake system components and transmission system components. In mechanical manufacturing, titanium and aluminum carbonitride can manufacture high-precision mechanical parts and tools. In addition, in the nuclear industry, because of its excellent corrosion resistance and high-temperature properties, titanium and aluminum carbonitride can be used to manufacture heating elements of high-temperature furnaces and structural materials for nuclear reactors.
The high hardness and good wear resistance of titanium-aluminum carbonitride make it an ideal material for wear-resistant coatings. In the petrochemical field, titanium and aluminum can manufacture high-performance, wear-resistant pipes and reactor linings. In the power industry, titanium and aluminum can manufacture high-performance, wear-resistant fan blades and gas turbine blades. In mining and coal, titanium and aluminum can manufacture mining tools and conveyor belts with high wear resistance. In addition, it can also be used as the reinforcement phase of metal matrix composite materials to improve the material's wear resistance.
Due to its conductive properties, titanium aluminum carbonitride has been used in functional materials. In the electronics industry, titanium aluminum can manufacture electronic components with high conductivity and substrates for electronic devices. In addition, titanium aluminum carbonitride can be used as an optical material, such as in manufacturing optical components and devices with high light transmission properties.
Titanium aluminum carbonitride has stable chemical and high-temperature properties, making it an ideal material for catalyst support. In the chemical industry, titanium and aluminum carbonitride can manufacture high-performance catalyst carriers and reactor linings. In addition, titanium and aluminum carbonitride can be used in environmental protection to manufacture efficient adsorbents and cleaning agents.
In addition to the above application areas, titanium aluminum can be used in other fields. For example, in the biomedical field, titanium and aluminum carbonitride can manufacture biocompatible materials and drug carriers. In addition, in building materials, titanium and aluminum carbonitride can be used to manufacture building materials with high strength and high weather resistance.
Titanium Aluminum Carbide Nickel Powder Storage Conditions：
Ti3AlCN powder's dispersion and usage performance will be affected by dampness. Titanium Aluminum Carbide Nitride Ti3AlCN Puffer should be stored in vacuum-packed and kept dry. Titanium Aluminum Nitride cannot be exposed directly to air. Ti3AlCN Powder should not be exposed to stress.
Shipping Titanium Aluminum Carbide Powder Ti3AlCN powder :
Many types of packing are available depending on the Titanium Aluminum Carbide Ntride Ti3AlCN powder quantity.
Packing of Titanium Aluminum Carbide Nickel Ti3AlCN
You can vacuum pack 100g, 500g, 1 kg/bag or 25kg/barrel. Or as you request.
Titanium Aluminum Carbide Powder Shipping:
Once payment has been received, items may be shipped by sea or air as soon as they are possible.