α′プロセッシング法で塑性加工した α′マルテンサイト型チタン合金の組織と機械的特性

抄録

  Microstructure and mechanical properties of cold grooved rolled α′ Ti-V-Al and Ti-V-Sn alloys were investigated. Microstructure after solution treatment at 950°C and quenching into ice water showed the acicular martensitic structure of α′ phase for (Ti-12 mass%V)-2 mass%Al and (Ti-8 mass%V)-4 mass%Sn alloys and (α′+α″) phases for (Ti-12 mass%V)-6 mass%Sn alloy. After cold groove rolling at reduction of 75%, microstructure evolved into the equiaxed refined dislocation cell structure having the preferred rolling texture of <1010> parallel to rolling direction. After cold groove rolling, Young's modulus decreases to 47 GPa, in contrast, tensile strength increases to more than 1000 MPa accompanying with work hardening and grain refinement.