UMM
EN

CN

language
中国
韩国
韩国
韩国
韩国
韩国
imgboxbg

Industry News

Learn more about us through the industry

搜索
Search

News

Your location:
Homepage
/
/
The origin and function of Ruthenium ingot

The origin and function of Ruthenium ingot

  • Categories:News
  • Author:
  • Origin:
  • Time of issue:2021-06-23 18:58
  • Views:0

(Summary description)Ruthenium ingot is a hard, brittle and light gray polyvalent rare metal element. It is a member of the platinum group metals. The content in the earth's crust is only one part per billion.

The origin and function of Ruthenium ingot

(Summary description)Ruthenium ingot is a hard, brittle and light gray polyvalent rare metal element. It is a member of the platinum group metals. The content in the earth's crust is only one part per billion.

  • Categories:News
  • Author:
  • Origin:
  • Time of issue:2021-06-23 18:58
  • Views:0
Information

Ruthenium ingot is a hard, brittle and light gray polyvalent rare metal element. It is a member of the platinum group metals. The content in the earth's crust is only one part per billion. It is one of the rarest metals and has very stable properties. , The corrosion resistance is very strong, and it can resist the corrosion of hydrochloric acid, sulfuric acid, nitric acid and aqua regia at room temperature. Ruthenium ingot is the cheapest metal in the platinum group, although other metals such as platinum and palladium are more abundant than ruthenium.

Ruthenium ingot

Ruthenium ingot is the platinum group element with the least content in the earth's crust, and it is also the last platinum group element to be discovered. It was discovered more than 100 years after platinum was discovered 40 years later than other platinum group elements. Ruthenium ingot has many uses. Of course, as one of the rare metals, it is also one of the indispensable metal elements for industrial use. Ruthenium ingot is a hard, brittle and light gray polyvalent rare metal element, and it is a platinum group metal. One of them. Therefore, ruthenium is a precious metal element for industrial use, and it is also one of the indispensable metal elements.

The use of Ruthenium ingot is mainly determined by the physical and chemical properties of ruthenium. Ruthenium ingot is a hard white metal with a density of 12.30 g/cm3. The melting point is 2310°C and the boiling point is 3900°C. The valences are 2, 3, 4 and 8. The first ionization energy is 7.37 electron volts. The chemical properties are very stable. When the temperature reaches 100℃, it has resistance to various acids including aqua regia, and it also has resistance to hydrofluoric acid and phosphoric acid. When Ruthenium ingot is at room temperature, the iodine in chlorine water, bromine water and alcohol can slightly corrode ruthenium. It is resistant to many molten metals including lead, lithium, potassium, sodium, copper, silver and gold. Works with molten alkaline hydroxides, carbonates and cyanides.

Keyword:

Scan the QR code to read on your phone

Top dynamic rankings

Application of rhenium target in sputtering coating
Application of rhenium target in sputtering coating
This article briefly introduces the application of rhenium target
See more information
This article briefly introduces the application of rhenium target
What is Spherical tantalum powder
What is Spherical tantalum powder
Spherical tantalum powder is a metal element. The element corresponding to the element is steel gray metal, which has high corrosion resistance. It does not react to hydrochloric acid, concentrated nitric acid and aqua regia regardless of whether it is under cold or hot conditions.
See more information
Spherical tantalum powder is a metal element. The element corresponding to the element is steel gray metal, which has high corrosion resistance. It does not react to hydrochloric acid, concentrated nitric acid and aqua regia regardless of whether it is under cold or hot conditions.
Application and introduction of high purity rhenium
Application and introduction of high purity rhenium
High purity rhenium is a kind of rare metal, mainly used in the production of semiconductors and special alloys. High purity rhenium is mainly used in the production of semiconductors, special alloys, etc.
See more information
High purity rhenium is a kind of rare metal, mainly used in the production of semiconductors and special alloys. High purity rhenium is mainly used in the production of semiconductors, special alloys, etc.
Detailed introduction about Iridium ingot
Detailed introduction about Iridium ingot
The chemical properties of Iridium ingot are very stable. It is the most corrosion-resistant metal. Iridium ingot has extremely high chemical stability to acid and is insoluble in acid. Only spongy iridium will slowly dissolve in hot aqua regia.
See more information
The chemical properties of Iridium ingot are very stable. It is the most corrosion-resistant metal. Iridium ingot has extremely high chemical stability to acid and is insoluble in acid. Only spongy iridium will slowly dissolve in hot aqua regia.
The origin and function of Ruthenium ingot
The origin and function of Ruthenium ingot
Ruthenium ingot is a hard, brittle and light gray polyvalent rare metal element. It is a member of the platinum group metals. The content in the earth's crust is only one part per billion.
See more information
Ruthenium ingot is a hard, brittle and light gray polyvalent rare metal element. It is a member of the platinum group metals. The content in the earth's crust is only one part per billion.
Application of rhenium pellet
Application of rhenium pellet
Rhenium pellet is a kind of rare refractory metal. It not only has good plasticity, mechanical properties and creep resistance, but also has good wear resistance and corrosion resistance.
See more information
Rhenium pellet is a kind of rare refractory metal. It not only has good plasticity, mechanical properties and creep resistance, but also has good wear resistance and corrosion resistance.
Use of osmium ingot
Use of osmium ingot
Osmium ingot and its alloys are mainly used as catalysts in the petrochemical industry. In the electronic and electrical industry, it is used for resistors, relays, spark plug electrodes, electrical contacts, thermocouples and printed circuits.
See more information
Osmium ingot and its alloys are mainly used as catalysts in the petrochemical industry. In the electronic and electrical industry, it is used for resistors, relays, spark plug electrodes, electrical contacts, thermocouples and printed circuits.
The Asia-Pacific 6D communications satellite was successfully launched!
The Asia-Pacific 6D communications satellite was successfully launched!
At 20:11 on July 9, 2020, the Asia-Pacific 6D communications satellite was successfully launched by the Long March 3B carrier rocket at the Xichang Satellite Launch Center. The Asia-Pacific 6D communication satellite is a high-throughput broadband communication satellite in geostationary orbit. It was developed by the Communications Satellite Division of the Fifth Academy of Aerospace Science and Technology Group (hereinafter referred to as the Fifth Academy), and adopted the new-generation Dongfanghong-4 enhanced version independently developed by my country. The satellite public platform (DFH-4E platform) is built with a launch weight of about 5550 kg and a service life of 15 years in orbit. Up to now, the Fifth Academy has developed and launched 304 spacecraft.
See more information
At 20:11 on July 9, 2020, the Asia-Pacific 6D communications satellite was successfully launched by the Long March 3B carrier rocket at the Xichang Satellite Launch Center. The Asia-Pacific 6D communication satellite is a high-throughput broadband communication satellite in geostationary orbit. It was developed by the Communications Satellite Division of the Fifth Academy of Aerospace Science and Technology Group (hereinafter referred to as the Fifth Academy), and adopted the new-generation Dongfanghong-4 enhanced version independently developed by my country. The satellite public platform (DFH-4E platform) is built with a launch weight of about 5550 kg and a service life of 15 years in orbit. Up to now, the Fifth Academy has developed and launched 304 spacecraft.
Silicon carbide and gallium nitride have stolen the limelight and will now usher in an explosion
Silicon carbide and gallium nitride have stolen the limelight and will now usher in an explosion
Today, the third-generation semiconductor materials represented by silicon carbide (SiC) and gallium nitride (GaN) have received great attention, and their role in high-power, high-temperature, and high-voltage applications is not traditional Comparable to silicon devices. Especially with the increasingly stringent requirements for high-performance semiconductor materials in emerging high-tech fields such as new energy and 5G, the third-generation semiconductor materials are destined to further shine.
See more information
Today, the third-generation semiconductor materials represented by silicon carbide (SiC) and gallium nitride (GaN) have received great attention, and their role in high-power, high-temperature, and high-voltage applications is not traditional Comparable to silicon devices. Especially with the increasingly stringent requirements for high-performance semiconductor materials in emerging high-tech fields such as new energy and 5G, the third-generation semiconductor materials are destined to further shine.
UMM

Scan the QR code and follow the official account