Norihito Shibuya scite author profile

Norihito Shibuya

5Publications

19Citation Statements Received

113Citation Statements Given

How they've been cited

How they cite others

109

Affiliations

Sinto (Japan)

Publications

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Effects of laser peening on the fatigue strength and defect tolerance of aluminum alloy

Takahashi

Kogishi

Shibuya

et al. 2020

Fatigue Fract Eng Mat Struct

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The effects of laser peening (LP) on the bending fatigue strength of the 7075‐T651 aluminum alloy were investigated. Accordingly, the defect tolerance of the aluminum alloy subjected to LP is discussed on the basis of fracture mechanics. The results indicate that a deeper compressive residual stress was induced by LP compared with the case of shot peening (SP). The fatigue strengths increased when both peening types were used. Semicircular slits with depths less than 0.4 and 0.1 mm were rendered harmless on the basis of the applications of LP and SP, respectively. The apparent threshold stress intensity factor range ΔKth,ap increased by approximately five and two times owing to LP and SP, respectively. The increase of the ΔKth,ap was caused by the compressive residual stress induced by the peening. The Kitagawa‐Takahashi diagram of the laser‐peened specimens shows that the defect tolerance of the aluminum alloy was improved by LP.

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Improvement in Bending Strength of Silicon Nitride through Laser Peening

et al. 2022

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This study aimed to improve the bending strength and reliability of ceramics using laser peening (LP). In the experiment, LP without coating (LPwC) and with coating (LPC) were applied to silicon nitride (Si3N4) under various conditions. The surface roughness, residual stress, and bending strength were then measured for the non-LP, LPwC, and LPC specimens. The results show that the LPwC specimen had a greater surface roughness but introduced larger and deeper compressive residual stress when compared with the non-LP and LPC specimens. In addition, the bending strength of the LPwC specimen was higher and scatter in bending strength was less compared with the non-LP and LPC specimens. This may be attributed to the transition of the fracture initiation point from the surface to the interior of the LPwC specimen because of the compressive residual stress introduced near the surface. Thus, it was demonstrated that the application of LP is effective in improving the strength and reliability of ceramics.

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Improvement of Fatigue Limit and Rendering a Surface Defect Harmless for Stainless Steel Welded Joint Containing a Crack-like Defect

Fueki

Takahashi

Kumeno³

et al. 2018

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Improvement of Bending Strength for Ceramics by Laser Peening

Takahashi

Saigusa

Kumeno

et al. 2019

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Application of Laser Peening for Cold Work Steel

Shibuya

Kumeno

Nakamura

et al. 2019

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