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High density Machined / Polished WNiCu Tungsten Heavy Alloy For Motorcycles / Cars

Place of Origin: Guangdong

Company Profile

Location: Wuhan, Hubei, China (Mainland)
Business Type: Manufacturer
Main Products: Tungsten Carbide Cutting Tools, Tungsten Carbide Wear Parts, Tungsten Products

Product Detail

Model No.: AIA-1

Product Description

WNiCu Tungsten Heavy Alloy Tungsten Nickle Copper Alloy For Motorcycles / Cars

 

Tungsten heavy alloys generally are refractory metal, which have two-phase composites consisting of W-Ni- Fe or W-Ni- Cu or even W-Ni-Cu-Fe, some tungsten alloy is added Co, Mo, Cr, etc. They have very high melting point and have a density twice that of steel and are more than 50% heavier than lead. Tungsten content in conventional tungsten alloys varies from 90 to 98 weight percent and is the reason for their high density (between 16.5 and 18.75 g/cc). Nickel, iron and copper serve as a binder matrix, which holds the brittle tungsten grains together and which makes the alloys ductile and easy to machine.
 
Tungsten Nickle Copper Alloy has density range from 17.0g/cm3 to 18.8g/cm3, which is the twice of steel, more than 1.5 times of lead. WNiCu alloy has low thermal expansion coefficient, high strength and high modulus of elasticity.
 
Tungsten Nickle Copper Alloy Main Application:

 

For making rotors of dynamic inertial materials, the stabilizers of aircraft wings, shielding materials for radioactive materials, containers in hospitals and for radioactive isotope (Cobalt 60), and for material of armor piercing bullets and moulds, etc.


Tungsten alloy Advantages:

 

-Excellent radiation-shielding property 
-High thermal conductivity with low thermal expansion coefficient 
-High oxidation resistance and corrosion resistance 

-Excellent mechanical properties such as high vibration-damping capacity and high Young's modulus. 
-High density 

-Higher high-temperature strength and thermal shock resistance 

 
Tungsten Nickle Copper Alloy Data Sheet:

 

Alloy Type
(%)

HD17

90 W
6 Ni
4 Cu

HD18

95 W
3.5 Ni
1.5 Cu

MIL-T-21014

Class 1

Class 3

SAE-AMS-T-21014

Class 1

Class 3

AMS 7725 C

7725 C

--

ASTM B777-87

Class 1

Class 3

Typical Density 

(g/cc)

17.1

18

Typical Density
(lbs/in3)

0.614

0.65

Typical Hardness RC

24

27

Ultimate Tensile Strength Min
(ksi)

110,000

110,000

0.2% Offset Yield Strength Min
(ksi)

80,000

85,000

Minimum % Elongation
(1" gage length)

6

7

Proportional Elastic Limit
(PSI)

45,000

45,000

Modulus of Elasticity
(x106psi)

40 x 106

45 x 106

Coefficient of Thermal Expansion x10-6/0C
(20-400C)

5.4

4.43

Thermal Conductivity
(CGS Units)

0.23

0.33

Electrical Conductivity
(% IACS)

14

16

Magnetic

No

No

 

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