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Last Updated: Apr 25, 2025 | Study Period: 2024-2030
Tungsten nickel-copper alloy (W-Ni-Cu alloy) is a kind of tungsten-based heavy alloy. Tungsten heavy alloy, commonly known as tungsten alloy, has a number of great qualities, including a high melting point, high density, and strong elongation capability.
All of this enables them to be employed in a variety of areas, including sports and medical. Tungsten Nickel Copper is a high-density alloy that may be used in high-temperature conditions and for purposes like simple balancing and radiation shielding.
Tungsten Nickel Copper is a high-density alloy that may be used in high-temperature conditions and for purposes like simple balancing and radiation shielding. AE AlloysTM are available in a variety of machined forms and sizes, including bar, ingot, ribbon, wire, shot, sheet, and foil. On request, they may also create materials to bespoke requirements.
Metal powder, submicron powder, and nanoscale, targets for thin film deposition, and pellets for chemical vapor deposition (CVD) and physical vapor deposition (PVD) applications are also available in ultra high purity and high purity forms.
When applicable, American Elements produces to many standard grades, including Mil Spec (military grade); ACS, Reagent, and Technical Grade; Food, Agricultural, and Pharmaceutical Grade; Optical Grade, USP, and EP/BP (European Pharmacopoeia/British Pharmacopoeia).
Tungsten nickel copper alloy (W-Ni-Cu alloy) is a kind of tungsten-based heavy alloy. It is an alloy composed of nickel and copper added to tungsten, to which additional metal components are added. In general, nickel and copper account for the alloy, which is often created using the powder metallurgy process.
Because of the tungsten-nickel-copper high specific gravity alloy's good qualities, it is extensively utilized in aerospace, aviation, military, oil drilling, medical, and other areas.
Furthermore, because such alloys are non-ferromagnetic and have reasonably excellent electrical and thermal conductivity, they are frequently utilized in situations requiring unique criteria, such as gyroscope rotors and other parts and components of functioning devices and instruments.
The invention is about a tungsten-nickel-copper alloy and its preparation process, specifically a tungsten-nickel-copper alloy. Tensile strength is one of the characteristics of the tungsten-nickel-copper alloy. The invention also pertains to a method for creating the tungsten-nickel-copper alloy, which includes the processes listed below:
(1) combining tungsten oxide powder, nickel oxide powder, and copper oxide powder to produce powder of the mixed materials;
(2) reducing the powder of the mixed materials obtained in step (1) to produce mixture powder of tungsten, nickel, and copper;
(3) molding the mixture powder of tungsten, nickel, and copper obtained in step (2) into green bodies; and
(4) sintering the green bodies obtained in step (3) to produce the tungsten-nickel-copper alloy.
The Global Tungsten Nickel Copper Alloy Market accounted for $XX Billion in 2022 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The tungsten-nickel-copper alloy, as a novel form of medical X-ray protective material, has the following properties: lead-free, environmental protection, non-magnetic, high density, great capacity to absorb high energy rays, machinable, weldable, and low thermal expansion coefficient.
As a result, it is widely employed in the fields of medical radiation shielding and magnetic environment protection. When compared to tungsten-nickel-iron alloys, tungsten-nickel-copper alloys have distinct anti-interference benefits in magnetically sensitive locations.
When compared to the shielding performance of lead, the tungsten-nickel-copper alloy has a greater capacity to absorb radiation and a higher power.
In comparison to poisonous lead, tungsten alloys offer environmental protection properties, and the manufacturing process of tungsten alloy shielding components is not hazardous to human safety.
Bayerische Metallwerke GmbH, a subsidiary of Wolfram Industrie located in Germany, has developed and patented a novel material manufacturing technique for tungsten alloy.
The technology is unique in that it can produce powdered high-concentration tungsten pre-alloy mixtures (WNiFe and WNiCu), allowing the materials to be employed in both 3D printing and coating procedures.
With a research period behind it, the business believes its new method will open the way for more complicated tungsten component geometries, providing new alternatives for applications like tool manufacture and 3D printed radiation shielding.
Their tungsten-nickel-iron alloy is unique in that they receive it in the form of a pre-alloyed powder. Tungsten alloys are well-known for their high heat conductivity and outstanding corrosion resistance, making them an ideal alternative for chill-mold casting of aluminum components.
In addition, the heavy metal is incredibly thick. With a density similar to gold, tungsten is widely used in tool manufacture as well as alpha and gamma radiation shielding in healthcare.Tungsten is the material of choice in the field of cast aluminum because to its resistance to corrosion and erosion from molten metals, as well as its superior thermal conductivity.
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