Strengthening mechanism of titanium-zirconium-molybdenum alloy
(1) Cold working deformation hardening not only improves the strength of the alloy but also refines the grains, while producing a tough fibrous microstructure.
(2) A small amount of titanium and zirconium elements dissolve in the molybdenum matrix, increasing structural stability and raising the recrystallization temperature.
(3) Dispersion strengthening caused by the reaction between substitutional elements (titanium, zirconium) and interstitial elements (carbon) in the molybdenum matrix to form spherical complex carbide particles, improves the high temperature strength and creep resistance of molybdenum. The carbon and titanium content in TZM alloy has the same critical ratio as that of Mo-0.5Ti alloy. Powder metallurgy method
Basic parameters of titanium-zirconium-molybdenum alloy
Physical Properties:
|
Hardness Vikers |
HV |
280-320 |
|
Tensile Strength |
Mpa |
830 |
|
Upper Yield Strength |
Mpa |
786 |
|
Elongation after fracture |
% |
26 |
|
Application |
Mainly used for hot processing tools |
|
|
Available Size or Shape |
Rod or other shape and size as per customers' requests |
|
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