90% WNiMoFe Tungsten Alloy Advantage

Primarily, 90% WNiMoFe tungsten alloy was developed as an alternative to H-13 tool steels for die cast tooling while 2002 tests at Case Western have shown that anviloy outperformed all of the test steels without any treatment process applied. The sheet below can clearly show you that tungsten anviloy1150 is more ideal for tools of you. Although the tensile properties of H-13 tool steel is higher than tungsten anviloy at first, however, with the increasing of temperature, the properties of H-13 tool steel drop immediately at huge scope while tungsten anviloy keep steady. And tungsten anviloy1150 coefficient is lower than H-13 tool steel at any temperature.

Typical Room Temperature Mechanical Properties	Units	90% WNiMoFe tungsten alloy	H-13 Tool Steel
Ultimate Tensile Strength	Psi	140000	233000
Ultimate Tensile Strength	Mpa	965	1610
Yield Strength,0.2%Offset	Psi	125000	192000
Yield Strength,0.2%Offset	Mpa	862	1320
Elongation	%in 2inches	3	13.1
Hardness	HRC	34	45
Modulus of Elasticity	×10⁶psi	49	30.5
Modulus of Elasticity	GPa	338	210

Elevated Temperature Tensile Properties	Units	90% WNiMoFe tungsten alloy	H-13 Tool Steel
UTS at 1000°F(537°C)	Psi	113000	142000
UTS at 1000°F(537°C)	MPa	779	979
UTS at 1200°F(648°C)	Psi	105000	85000
UTS at 1200°F(648°C)	Mpa	724	586
UTS at 1500°F(815°C)	Psi	75000	20500
UTS at 1500°F(815°C)	Mpa	517	141

Coefficient of Thermal Expansion(CTE)	Units	90% WNiMoFe tungsten alloy	H-13 Tool Steel
68-750°F(20-400°C)	×10^-6/°F	2.52	6.8
68-750°F(20-400°C)	×10^-6/°C	4.54	12.2
68-1450°F(20-788°C)	×10^-6/°F	2.92	7.5
68-1450°F(20-788°C)	×10^-6/°C	5.26	13.5
Thermal Conductivity	Btu/(ft·h·℉)	74	19.3
Thermal Conductivity	W/(m·K)	128	34.3
Density	lb/in³	0.623	0.28
Density	g/cm³	17.25	7.76