Physical Properties | Metric | English | Comments |
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Density | 17.0 g/cc | 0.614 lb/in³ | |
Hogen HM1000 Tungsten-Based Metal Mil Spec T-21014D Class 1; ASTM B-777-99 Class 1; SAE Aero Material Spec (AMS) 7725C; AMS T-21014 Class 1. Nil magnetic properties.Manufactured by powder metallurgy methods. The tungsten base offe.. |
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Density | 17.0 g/cc | 0.614 lb/in³ | |
Hogen HM1100 Tungsten-Based Metal Mil Spec T-21014D Class 1; ASTM B-777-99 Class 1; SAE Aero Material Spec (AMS) 7725C; AMS T-21014 Class 1. Slightly Magnetic.Manufactured by powder metallurgy methods. The tungsten base offers hig.. |
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Density | 17.0 g/cc | 0.614 lb/in³ | |
Mi-Tech Metals HD17 Tungsten-Based Metal Mil Spec T-21014D Class 1; ASTM B-777-99 Class 1; ASTM B-777-07 Class 1; SAE Aero Material Spec (AMS) 7725C; AMS T-21014 Class 1. Nil magnetic properties.Manufactured by powder metallurgy methods. .. |
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Density | 17.0 g/cc | 0.614 lb/in³ | |
Mi-Tech Metals HD17BB Tungsten-Based Metal ASTM B-777-07 Class 1; Slightly Magnetic (HD17 is non-magnetic).Manufactured by powder metallurgy methods. The tungsten base offers high thermal conductivity and a low CTE which combine to resist t.. |
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Density | 17.0 g/cc | 0.614 lb/in³ | |
Mi-Tech Metals HD17D Tungsten-Based Metal Mil Spec T-21014D Class 1; ASTM B-777-99 Class 1; ASTM B-777-07 Class 1; SAE Aero Material Spec (AMS) 7725C; AMS T-21014 Class 1. Slightly Magnetic.Manufactured by powder metallurgy methods. The t.. |
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Density | 17.0 - 17.6 g/cc | 0.614 - 0.636 lb/in³ | |
H.C. Starck WCu 90/10 Tungsten-Copper Composite Material Description of Product: Tungsten-copper composite materials are produced by copper infiltration of porous sintered tungsten. They are available with different copper contents (10 - 30 %). A therm.. |
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Density | 17.0 g/cc | 0.614 lb/in³ | |
China Tungsten W 90 Tungsten Carbide Powder Information provided by China Tungsten |
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Density | 17.0 g/cc | 0.614 lb/in³ | |
ATI Wah Chang Infiltrated Tungsten (Copper) Tungsten base infiltrated metal with Copper as infiltrant has been widely used in industry for years. It has proven highly advantageous because of its excellent machinability. Roughly 90% Tungsten a.. |