摘要
Abstract The α + β→β phase transformation kinetics of Ti-1300 alloy during continuous heating at different heating rates were investigated using dilatometric method. Results show that the curves of the α + β→β phase transformation exhibit a typical S-shaped pattern, which indicates that the α + β→β phase transformation is a nucleation-growth-controlled process. The overall activation energy of the α + β→β transformation of the alloy is 797 kJ·mol^-1. The nucleation and growth mechanism of the α + β→β transformation was also investigated using the non-isothermal Avrami exponent. The Avrami exponent during α + β→β transformation process significantly changes with transformed volume fraction increasing, which indicates that the α + β→β transformation mechanism in the Ti-1300 alloy varies at different sections.
Abstract The α + β→β phase transformation kinetics of Ti-1300 alloy during continuous heating at different heating rates were investigated using dilatometric method. Results show that the curves of the α + β→β phase transformation exhibit a typical S-shaped pattern, which indicates that the α + β→β phase transformation is a nucleation-growth-controlled process. The overall activation energy of the α + β→β transformation of the alloy is 797 kJ·mol^-1. The nucleation and growth mechanism of the α + β→β transformation was also investigated using the non-isothermal Avrami exponent. The Avrami exponent during α + β→β transformation process significantly changes with transformed volume fraction increasing, which indicates that the α + β→β transformation mechanism in the Ti-1300 alloy varies at different sections.
基金
financially supported by the National Natural Science Foundation of China(No.51401058)
the Transformation Project of Major Scientific and Technological Achievements of Shanxi Province(No.2012KTCG04-14)
the Science and Technology Innovation Team Project of Shanxi Province of China(No.2012KCT-23)