TaSi2 silicide, also known as Tantalum silicide. It has been used in many electronic devices and electric heating elements.
Purity: 99%
Particle Size: 5-10um
The TaSi2 Tantalum Silicide Powder
Tintalum silicide, TaSi2 Powder
is uniform in particle size and has structural stability.
Tantalum silicide
Excellent properties include high melting point and low resistance as well as corrosion resistance and resistance to high temperatures oxidation. It is also compatible with carbon, silicon and other matrix materials.
Tintalum silicide, TaSi2 Powder
This material is commonly used for the connection of integrated circuits, as a gate material and as a high-temperature oxide resistance coating. It has been extensively researched and utilized in electronic devices, high temperature structural parts, electric heating elements, and other applications.
Tantalum has a high resistance to chemicals below 150°C. This can only be broken down with hydrofluoric Acid.
Metal silicides
Similar metal conductivity, high temperature performance, and oxidation resistance to silicon integrated circuits. You can use transition metal silicides for interconnections and resistance contacts as well as low-resistance gate and interconnection designs.
To receive the most current information, send us an inquiry
Disilicide price for tantalum
You can buy here
Tantalum Silicide TaSi2 Puffer
In bulk.
How does Tantalum Silicide TaSi2 Pulver get made?
There are many preparation options for tantalum silicide, including combustion synthesis (combustion, CS) and self-propagating at high temperatures synthesis, such as arc melting.
1. Pulverize silicon powder and metal tantalum as your raw material. Next, heat the mixture to 800 degrees C. Heat up hydrogen gas to start the reaction. To make tantalum silicide, reduce tantalum pentoxide and calcium hydride. Heat to 1800oC and add silicon powder.
2. Preheat the Si/Ta mixture to 350C. Heat to 1480C. Finally, heat the reaction. Alternately, make TaS2 reaction with SiHnX4N at 900.
3. Direct method: "Total Silicide" is made from tantalum-metal and silicon powder. Here is how to make the reaction.
To begin, grind and combine tantalum metal with silicon powder. Next, heat them up in a graphite oven.
For tantalum silicide you will need to perform a prereaction of 1100-1500 degC. Then, add hydrogen and heat it up to 1800degC.
4. Tantalum pentoxide reduction: To reduce tantalum peroxide, first mix calcium hydride with it to get tantalum hydride. Heat to 1800C to extract tantalum metallic, then add silicon powder for tantalum silicide.
Technical Parameters of Tantalum Silicide Powder TaSi2:
Name of the product
|
MF
|
Purity
|
Particle Size
|
Melting Point
|
Density
|
The color of the sky
|
Silicide with tantalum
|
TaSi2
|
99%
|
3-5um
|
2200
|
9.14 g/cm3
|
Black
|
Tantalum Silicide TaSi2 Pulp:
1. TaSi2 Tatalum silicide TaSi2 is used for making composite ceramic materials with silicon nitride/tantalum silicide.
2. The preparation of tantalum silicide TaSi2 Powder is done using Tantalum Silicide TaSi2 (tantalum silicide TaSi2) powder
3. TaSi2 silicide Tantalum powder can be used to make tantalum/silicon carbide coats that are based on carbon/carbon-compound materials
4. TaSi2 Tatalum silicide powder can be used in ceramic materials, thin film materials, and other refractory materials.
5. As fine ceramic raw materials powder, Tantalum silicide TaSi2 is used.
Shipping Tantalum Silicide TaSi2 Pulver:
There are many packing options available depending on the amount of tantalum silicide, TaSi2 or other powder.
Tintalum silicide TaSi2 Powder Packaging:
You can vacuum pack 1kg/bag or 25kg/barrel.
Transport of powdered tantalum silicide TaSi2:
Could be sent by air, sea or express once payment has been received.
Mis-asia advanced materials Nano Technology Co. Ltd. (Miss-asia) has over 12-years of experience as a supplier and manufacturer for super high-quality chemical material. This includes boride, nitride, graphite, sulfide, 3D printing powders, etc.
High-quality products are what you want
TaSi2
Pulver
Please feel free and contact us to make an enquiry. (
brad@ihpa.net
)