Development of Ultrahigh-Strength, Ductile Titanium Alloys by Thermomechanical Processing and Transformation-Induced Plasticity.

Abstract

This report summarizes the results obtained during the third year of a program aimed at the development of high strength titanium alloys showing enhanced ductility and toughness due to the occurrence of deformation-induced phase transformation. Binary alloys of titanium with the beta-eutectoid solutes iron, manganese, and chromium were investigated during the first half of this program. The second half of the program was devoted to an investigation of the deformation-induced transformation behavior and mechanical properties of alloys based on Transage 129 (Ti-2Al-11V-2Sn-11Zr). Marked transformation-induced plasticity (TRIP) behavior was observed for the experimental alloys in a beta-annealed condition, especially when the V:Al content ratio was reduced below 5.5. When the alloys were aged to increase the yield strength the TRIP behavior disappeared, although deformation-induced transformation still occurred in some instances. The reasons for this behavior are discussed in the report and it is concluded that a high yield strength and TRIP behavior are mutually exclusive in these alloys, since both depend on the same strengthening mechanism. (Modified author abstract)

Document Details

Document Type

Technical Report

Publication Date

Jun 01, 1973

Accession Number

AD0767780

Entities

Tags