Rhenium Pellet Description
Rhenium has an extremely high melting point of approximately 3,180 degrees Celsius, the third-highest melting point of any element after tungsten and palladium. This enables Rhenium Pellet to maintain its structural stability at high temperatures. Rhenium exhibits good oxidation resistance, making it resistant to oxidation and corrosion at high temperatures. This property makes Rhenium Pellet ideal for use in high-temperature alloys and catalysts. Rhenium is a good conductive metal, and its high conductivity to electric current makes Rhenium Pellet useful in the manufacture of electronic components such as resistors and thermocouples. Rhenium is highly malleable and can be easily moulded into different shapes during processing to suit a variety of applications.
Rhenium Pellet Specifications
Purity: 99.99%
Maximum trace metallic impurities, analyzed by ICP-MS
|
Na
|
0.0005%
|
Ti
|
0.0001%
|
Cu
|
0.0001%
|
Sb
|
0.0001%
|
|
Mg
|
0.0001%
|
V
|
0.0001%
|
Zn
|
0.0001%
|
Ta
|
0.0001%
|
|
Al
|
0.0001%
|
Cr
|
0.0001%
|
As
|
0.0001%
|
W
|
0.0005%
|
|
Si
|
0.0005%
|
Mn
|
0.0001%
|
Zr
|
0.0001%
|
Pb
|
0.0001%
|
|
P
|
0.0005%
|
Fe
|
0.0005%
|
Mo
|
0.0010%
|
Bi
|
0.0001%
|
|
K
|
0.0005%
|
Co
|
0.0001%
|
Cd
|
0.0001%
|
Se
|
0.0001%
|
|
Ca
|
0.0005%
|
Ni
|
0.0001%
|
Sn
|
0.0001%
|
Tl
|
0.0001%
|
Maximum gas elements,analysed by LECO
O 0.2% C 0.003%
Rhenium Pellet Applications
1. Alloy Preparation: Alloying rhenium with other metals enhances their mechanical properties and wear resistance. Therefore, Rhenium Pellet is used in the preparation of high-temperature, high-strength alloys, especially in aerospace and other high-tech fields.
2. Catalysts: Rhenium is often used in catalysts because of its unique electrochemical properties, Rhenium Pellet is used to prepare catalysts that support a variety of chemical reactions, such as petroleum processing and chemical synthesis.
3. Electronics: Rhenium is also widely used in the electronics industry, where it is used in the preparation of electronic components such as resistors and thermocouples because of its high conductivity to electric current and stability to heat.
Specification
Purity: 99.99%
Maximum trace metallic impurities, analyzed by ICP-MS
|
Na
|
0.0005%
|
Ti
|
0.0001%
|
Cu
|
0.0001%
|
Sb
|
0.0001%
|
|
Mg
|
0.0001%
|
V
|
0.0001%
|
Zn
|
0.0001%
|
Ta
|
0.0001%
|
|
Al
|
0.0001%
|
Cr
|
0.0001%
|
As
|
0.0001%
|
W
|
0.0005%
|
|
Si
|
0.0005%
|
Mn
|
0.0001%
|
Zr
|
0.0001%
|
Pb
|
0.0001%
|
|
P
|
0.0005%
|
Fe
|
0.0005%
|
Mo
|
0.0010%
|
Bi
|
0.0001%
|
|
K
|
0.0005%
|
Co
|
0.0001%
|
Cd
|
0.0001%
|
Se
|
0.0001%
|
|
Ca
|
0.0005%
|
Ni
|
0.0001%
|
Sn
|
0.0001%
|
Tl
|
0.0001%
|
Maximum gas elements,analysed by LECO
O 0.2% C 0.003%
