On stress dependence of strain rates due to grain boundary sliding and grain interior deformation in high-temperature creep of a Cu-30% Zn alloy

Abstract

Stress dependence of strain components ∊_g and ∊_gb due to grain interior deformation (GID) and grain boundary sliding (GBS), respectively, as well as of the corresponding component strain rates ∊_g and ∊_gb in high-temperature creep of a Cu-30% Zn alloy were investigated. The stress dependences of ∊_g and ∊_gb were found to be distinctly different, which, with other results, serves as a proof that GID and GBS are mutually independent processes in creep of the Cu-30% Zn alloy. The nomogram describing both the stress and temperature dependences of ∊_g and ∊_gb was obtained using the present results and the results of an investigation of temperature dependences of these component strain rates.