Fatigue crack/residual stress field interactions and their implications for damage-tolerant design |
| |
Authors: | M E Fitzpatrick L Edwards |
| |
Affiliation: | (1) Fracture Research Group, Materials Discipline, The Open University, Walton Hall, 7 6AA Milton Keynes, MK, UK |
| |
Abstract: | Residual stress fields are now widely accepted to have significant influence on fatigue crack growth. Tensile stresses have
detrimental effects on fatigue lives, whereas compressive residual stresses can be beneficial. Control of fatigue lives via
residual stress is now established in many industrial applications, using techniques such as shot peening or cold expansion.
However, knowledge of the processes that occur when a fatigue crack grows through a pre-existing stress field is far from
complete. Although the residual stress field will clearly have an effect on crack growth, the crack will equally have an effect
on the residual stress field. The determination of this effect is not trivial, and direct measurement may be the designer’s
best safeguard. This article outlines the complementary effects that a growing fatigue crack and a residual stress field have
on each other. Two types of residual stress field are considered: mechanically induced and thermally induced. The results
are discussed in terms of the implications that residual stress interactions have for damage-tolerant-based design. |
| |
Keywords: | crack growth damage tolerance fatigue neutron diffraction residual stress weight functions |
本文献已被 SpringerLink 等数据库收录! |
|