Constraint effects on fracture toughness of impact-loaded, precracked Charpy specimens |
| |
Authors: | Kyle C. Koppenhoefer Robert H. Dodds Jr. |
| |
Abstract: | Impact-loaded, precracked Charpy specimens often play a crucial role in irradiation surveillance programs for nuclear power plants. However, the small specimen size B = W = 10 mm limits the maximum value of cleavage fracture toughness Jc that can be measured under elastic—plastic conditions without loss of crack tip constraint. In this investigation, plane strain impact analyses provide detailed resolution of crack tip fields for impact-loaded specimens. Crack tip stress fields are characterized in terms of J—Q trajectories and the toughness-scaling model which is applicable for a cleavage fracture mechanism. Results of the analyses suggest deformation limits at fracture in the form of b > MJc/σ0, where M approaches 25–30 for a strongly rate-sensitive material at impact velocities of 3–6 m s−1. Based on direct comparison of the static and dynamic J values computed using a domain integral formulation, a new proposal emerges for the transition time, the time after impact at which interial effects diminish sufficiently for simple evaluation of J using the plastic η factor approach. |
| |
Keywords: | |
本文献已被 ScienceDirect 等数据库收录! |
|