Litcius/Paper detail

Analysis of the effect of deep-profile compressive residual stress induced by laser peening on fatigue strength of 7075 aluminum alloy

T. Watari, Yuta Kine, Masahiko Mitsubayashi, Yuki Kabeya, Takashi Kurita, Ryo Yoshimura, Katsuya Hirano, Toshiyuki Kawashima

2024Results in Optics10 citationsDOIOpen Access PDF

Abstract

The effect of laser peening-induced compressive residual stress on the fatigue strength improvement of A7075 specimens was investigated. Rotary bending fatigue tests and residual stress distribution measurements using the sequential polishing method were conducted on untreated, shot-peened, and laser-peened specimens. The results revealed that laser peening provides a deeper compressive stress and a deeper fracture origin, resulting in higher fatigue strength. Furthermore, controlling the laser parameters could extend the depth of the compressive stress layer by approximately 5 mm, indicating the possibility of applying laser peening to thicker materials to improve the fatigue strength.

Topics & Concepts

PeeningLaser peeningMaterials scienceResidual stressShot peeningCompressive strengthFatigue limitPolishingLaserStress (linguistics)BendingComposite materialAluminiumAlloyMetallurgyOpticsLinguisticsPhilosophyPhysicsSurface Treatment and Residual StressErosion and Abrasive MachiningHigh Entropy Alloys Studies