Laser shock peening for enhanced fatigue resistance in steel structures: Insights from Q960 steel study

Author:

Ma Yu,Bai YongtaoORCID

Funder

National Key Research and Development Program of China

National Natural Science Foundation of China

Publisher

Elsevier BV

Reference31 articles.

1. Bio-inspired branch structure seismic metamaterial: attenuating low-frequency Rayleigh waves[J];Bai;J Phys D Appl Phys,2024

2. Experimental study on fatigue behavior of prefabricated high-strength steel-concrete composite bridge beams[J];Ma;J Constr Steel Res Elsevier,2024

3. Russo F M, Mertz D R, Frank K H, et al. Design and evaluation of steel bridges for fatigue and fracture–reference manual[R]. National Highway Institute (US), 2016.

4. Bartsch T M. High cycle fatigue (HCF) science and technology program 2002 annual report[J]. 2014-04-01]. http://www. pr. afrl. af. mil/divisions/prt/hcf, 2003.

5. Bai Y, Ma Y, Zhou X, et al. A simulation study on fatigue life enhancement of composite steel-concrete beams after laser shock peening[J]. Engineering Mechanics. Doi: 10.6052/J.Issn.1000-4750.2023.02.0128.

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