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Standard

Titanium Alloy Sheet, Strip, and Plate 6al 4v Solution Heat Treated

2003-04-01
HISTORICAL
AMS4903
This specification covers a titanium alloy in the form of sheet, strip, and plate. This material has been used typically for parts to be formed or machined in the solution heat treated condition and subsequently precipitation heat treated requiring high strength-to-weight ratio and stability up to 550 degrees F (288 degrees C) in the precipitation heat treated condition, but usage is not limited to such applications. Certain processing procedures and service conditions may cause these products to become subject to stress-corrosion cracking; SAE ARP 982 recommends practices to minimize such conditions.
Standard

Titanium Alloy, Damage-Tolerant Grade Plate, 6al 4v, Beta, Annealed

1994-03-01
HISTORICAL
AMS4905B
This specification covers one type of titanium alloy plate in the beta-annealed condition. This plate has been used typically for parts in damage-tolerant, stress-corrosion-resistant applications requiring strength up to 750 degrees F (399 degrees C), but usage is not limited to such applications.
Standard

Titanium Alloy, Damage-Tolerant Grade Plate, 6Al - 4V, Beta Annealed

1988-01-01
HISTORICAL
AMS4905A
This specification covers one type of titanium alloy plate in the beta-annealed condition.This plate has been used typically for parts in damage-tolerant, stress-corrosion-resistant applications requiring strength up to 750 degrees F (399 degrees C), but usage is not limited to such applications.
Standard

Titanium Alloy, Sheet, Strip, and Plate, 6.0Al - 4.0V, Extra Low Interstitial, Annealed

2017-04-26
WIP
AMS4907L
This specification covers a titanium alloy in the form of sheet, strip, and plate. These products have been used typically for parts requiring a combination of weldability, ductility, and good notch-toughness down to –423 °F (–253 °C), but usage is not limited to such applications. Certain processing procedures and service conditions may cause these products to become subject to stress corrosion cracking; ARP982 recommends practices to minimize such conditions.
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