Ti2SnC's high fracture toughness, elastic modulus and high strength make it a great choice for those who need to resist thermal shock.
Purity: 99% Particle Size: 325 Mesh
Description of Titanium Tin Carbide Powder Ti2SnCpowder：
Chemical structure and composition:
The chemical structure of titanium carbide tin is composed of Ti atoms and Sn atoms, and each Ti atom forms a tetrahedral structure with four Sn atoms, similar to the tetrahedral structure in silicate minerals. In addition, each Sn atom forms an octahedral structure with two Ti atoms. This complex structure makes titanium-tin carbide unique in terms of crystallographic and physical properties.
Titanium carbide tin is a black solid material with a melting point of up to 2700 ° C. Its hardness is exceptionally high, second only to diamond, and its thermal conductivity is better than many metal materials. In addition, titanium carbide tin has excellent chemical stability and can remain stable in high-temperature and corrosive environments. These physical properties make titanium carbide tin in high-temperature electronic equipment, aerospace, chemical and other fields have a wide range of application potential.
The electron conductivity of titanium carbide tin is excellent, and its conductivity is close to that of metal. This high conductivity makes tin titanium carbide a good conductor material in electronic devices. In addition, the band structure of titanium-tin carbide gives it semi-metallic properties, which makes it potential applications in semiconductor devices.
Titanium carbide tin is ferromagnetic at low temperatures, which makes it have significant application value in the field of magnetism. An external magnetic field can regulate its magnetic properties, which makes tin titanium carbide a potential application in information storage and magnetic devices.
Tin titanium carbide has a wide optical transmission range, from ultraviolet to infrared band, and has good transmission properties. In addition, the optical properties of titanium carbide tin are stable and not affected by environmental factors. This makes tin titanium carbide a potential application in optics and optoelectronic devices.
Technical Parameters of Titanium Tin Carbide Powder Ti2SnC Powder
Name of the product
The color of the sky
Titanium Tin Carbide
Production Methodof MAX Special Ceramics Material Titanium Tin Carbide T2SnC Pulver：
High-temperature synthesis is a commonly used method to prepare titanium carbide tin; the basic steps are as follows:
Preparation of raw materials: The preparation of titanium carbide tin requires using titanium powder, tin powder and graphite powder as raw materials. These materials must be proportionally mixed, usually by mechanical mixing or plasma.
Pretreatment: The mixed raw materials are pre-treated, such as drying, ball milling, etc., to improve the activity of raw materials.
Loading: the mixed raw materials are placed into the graphite crucible and kept tight and uniform.
High-temperature synthesis: the graphite crucible equipped with raw materials is put into the furnace for high-temperature synthesis. It usually takes several hours of synthesis at high temperatures above 1500 ° C.
Cooling and removal: After synthesis, the graphite crucible is cooled from the furnace. After cooling, the bulk material of titanium carbide tin can be obtained.
The advantages of high-temperature synthesis
Strong applicability: The high-temperature synthesis method can prepare different components of titanium carbide tin materials suitable for large-scale production.
Low preparation cost: The raw material price of high-temperature synthesis is relatively low, and the preparation process is relatively simple, so the preparation cost is low.
High preparation efficiency: The high-temperature synthesis method can prepare many titanium carbide tin materials in a short time, and the preparation efficiency is high.
The shortcomings of high-temperature synthesis
High equipment requirements: the high-temperature synthesis method needs to be carried out at high temperatures, so it is necessary to use equipment that can withstand high temperatures, such as furnaces, crucibles, etc., and the equipment cost is high.
High safety requirements:
The high-temperature synthesis method needs to be carried out at high temperatures.
There are certain safety risks.
Corresponding safety measures need to be taken.
The shape of the prepared material is limited: the high-temperature synthesis method can only prepare the bulk material, and the material of other shapes cannot be prepared.
Other preparation methods
In addition to high-temperature synthesis, there are other methods for preparing titanium carbide tin, such as chemical vapor deposition and the sol-gel method. Each method has advantages and disadvantages, and the appropriate method can be selected for preparation according to the actual needs.
Precautions in the production process
In the production process of titanium carbide tin, the following points need to be noted:
Purity and quality of raw materials: the purity and quality of raw materials significantly impact the preparation quality and performance of titanium carbide tin, so it is necessary to use high-purity raw materials for preparation.
Temperature and time control: The control of temperature and time during the high-temperature synthesis process dramatically impacts titanium carbide tin's preparation quality and performance, so it is necessary to synthesize at the right temperature and time.
Safety measures: Due to certain safety risks in the high-temperature synthesis process, corresponding safety measures must be taken during production, such as wearing protective clothing and regularly checking equipment.
Environmental protection: It is necessary to pay attention to environmental protection in the production process, reduce the production and discharge of waste gas, wastewater and waste residue, and reduce the environmental impact.
Applicationes of MAX Special Ceramics Material Titanium Tin Carbide T2SnC Pulver
High-temperature electronic equipment field
Titanium carbide tin is widely used in high-temperature electronic equipment because of its excellent physical properties, such as high melting point, hardness, good electrical conductivity and chemical stability. For example, titanium carbide tin can manufacture high-temperature transistors, high-temperature resistors, high-temperature capacitors and other electronic devices, and high-temperature materials such as furnace tubes and heating elements of high-temperature furnaces.
Titanium carbide tin is also widely used in the aerospace field. For example, it can make parts for high-temperature aircraft engines, such as combustion chambers, turbine blades, etc. In addition, titanium carbide tin can be used to make rocket engine nozzles, missile nose cones, and other high-temperature components.
The application of titanium carbide tin in the chemical industry is mainly as a catalyst and catalyst carrier. In addition, titanium carbide tin can be used as a catalyst carrier in various chemical reactions, such as hydrocarbon and heavy oil cracking.
Titanium carbide tin has a wide optical transmission range and stable optical properties, so it has many applications in optical devices. For example, titanium carbide tin can manufacture high-temperature optical lenses, infrared optical Windows, and films. In addition, titanium carbide tin can be used to manufacture optical storage media, optical sensors, etc.
Titanium carbide tin is ferromagnetic at low temperatures and has specific applications in magnetic devices. For example, titanium carbide tin can manufacture magnetic devices such as magnetic cores and electromagnets with high permeability. In addition, titanium carbide tin can also be used to manufacture magnetic liquids and magnetic composite materials.
Tin titanium carbide has good biocompatibility and non-toxicity, so it also has specific applications in the biomedical field. For example, titanium carbide tin can manufacture artificial joints, dental implants, and other medical devices. In addition, titanium carbide tin can also be used in drug carriers and biological imaging agents.
Titanium Tin Carbide Powder Ti2SnC Storage Conditions
Damp reunion can adversely affect Ti2SnC's powder dispersion performance as well as its use properties. Ti2SnC titanium tin-carbid Ti2SnC must be kept dry and sealed in vacuum bags. Ti2SnC powder must be kept away from stress.
Shipping Titanium Tin Carbide T2SnC Powder - Packaging and Shipping
There are many options for packing, which all depend on the amount of titanium tin carbonide Ti2SnC. Packing of Titanium Tin Caride Ti2SnC Powder:
You can vacuum pack 100g, 500g, 1kg/bag or 25kg/barrel. Or as you request. Delivery of Ti2SnC titanium tin caride powder:
There are two options: express shipping or by sea.
Synthetic ChemicalTechnology Co. Ltd., is an established global chemical material manufacturer and supplier with over 12 years' experience in the production of high-quality nanomaterials. These include boride powders, graphite or nitride particles, as well as sulfide and sulfide-based powders for 3D printers.