• Low thermal expansion coefficient 
• High melting point 
• Essentially nonmagnetic 
• High intrinsic shock resistance 
• High ballistic resistance-to-density ratio 
• Nontoxic, nonallergenic and fully biocompatible 
• Very short radioactive half-life 
• Excellent cryogenic properties

TITANIUM ALLOYS

6Al-4V 
6Al-4V Eli  
6Al-6V-2Sn 
6Al-2Sn-4Zr-2Mo 
10V-2Fe-3Al 
6Al-2Sn-4Sr-6Mo 
CP2 /Grade 2 
 CP4 / Grade 4 


Primary Attributes of Titanium Alloys 


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COMMON SPECIFICATIONS

AMS 4928
AMS 6931
Mil T 9047
ASTM B 348 
AMS T 9047

AMS 4907
AMS 4971
AMS 4979
AMS 4975
AMS  4976

AMS 4919
AMS 4983
AMS 4964 
AMS 4986
AMS 4987 
AMS 4981


Titanium alloys can offer a wide spectrum of strength and combinations of strength and fracture toughness.  Alloy selection can be tailored for a critical applications based on whether it is for strength, fatigue, toughness and crack growth.  Alloys can be processed to provide high fracture toughness.

Titanium alloys generally offer resistance to significantly larger ranges of chemical environments (i.e., pH and redox potential) and temperatures compared to steels, stainless steels and nickel-based alloys. 

• Strength-to-Weight Ratio (high structural efficiency) 
• Low Density (roughly half the weight of steel, nickel and copper alloys) 
• Exceptional Corrosion Resistance  
• Excellent Elevated Temperature Properties  
• Exceptional erosion and erosion-corrosion resistance 
• High fatigue strength 
• High fracture toughness 
• Low modulus of elasticity