Optimization of Residual Stress Field and Improvement of Fatigue Properties of Thin-Walled Pipes by Filling Laser Shock Peening

Yu, Kun; Wang, Lingfeng; Zhao, Tianxiao; Shu, Song; Zhou, Liucheng

doi:10.3390/met12101733

Cited by 3 publications

(1 citation statement)

References 36 publications

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“…The greater the roughness, the more significant the decrease in the fatigue life is [11]. Many experts in this field have also confirmed that laser shock peening improves the fatigue limit of various different materials [12][13][14][15].…”

Section: Introductionmentioning

confidence: 99%

Numerical Simulation and Process Study on Laser Shock Peening of 1Cr18Ni9Ti Material

Ding,

Ma,

Zhang

et al. 2023

Crystals

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This article mainly studies the improvement of the properties of the 1Cr18Ni9Ti material after laser shock peening. The 1Cr18Ni9Ti material is the main material used to make aviation ducts, and improving the fatigue life of aviation ducts can significantly improve the safety performance of aviation engines. The article combines simulation and experiment to study the improvement effect of laser shock peening on the material’s properties. The main results are as follows: The fatigue test showed that, under the same stress load, laser shock peening can greatly extend the fatigue life of the specimen, with the 3J process having the best effect. EBSD analysis showed that the 3J process has the best grain refinement effect. The X-ray diffraction method proved that the measurement results of residual compressive stress under the 3J process are optimal. Overall, it is shown that the properties of the 1Cr18Ni9Ti material can be greatly improved under the 3J process.

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Section: Introductionmentioning

confidence: 99%

Numerical Simulation and Process Study on Laser Shock Peening of 1Cr18Ni9Ti Material

Ding,

Ma,

Zhang

et al. 2023

Crystals

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Improving tension fatigue performance of gray cast iron by LSPwC-induced gradient structure and carbon diffusion

Meng,

Yu,

Wang

et al. 2024

Journal of Materials Research and Technology

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Differential equations of oscillation of thin plates with point bonding

Berikkhanova

Zholymbayev

Aniyarov

2023

Zeitschrift Für Naturforschung A

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The relevance of the research results presented in this article lies in the general concept of elasticity theory, which integrates the bases of theoretical-empirical physics, practical mathematics and the natural implementation of modelling results in the fields of industrial (to a large extent in the design and manufacture of aircraft and naval aircraft shells and fuselages), construction (more so in the design and formation of multi-layer building structures), electronics and other areas of the science and industry complex. The aim of the study is to form a mathematical model of thin plate vibration based on a system of differential equations for the computational case of point bonding. The method of scientific search (Multilocal Literature Review) is used to achieve the set goal, which made it possible to establish the actual scientific-theoretical basis of the investigated problem, the method of mathematical modelling allowing to systematize the systems of differential equations developed earlier and formed in the framework of the present study, both for the general concept of the theory of elasticity of thin plates and for a selected calculation situation with partial constraints in the form of point bond imposing. As a result of the investigations conducted in the framework of this study, a mathematical model of the oscillations of thin plates bounded by special point-coupling conditions has been obtained, consisting of a system of differential equations obtained by successive iterations of mathematical transformations for the generated local boundary conditions. The mathematical model obtained is of practical scientific interest. The developed model environment forms a complete mathematical theory of elasticity for the formulated problem of the oscillatory process of thin plates with bounding point couplings. This problem has not received a satisfactory mathematical apparatus because of the complexity and cumbersomeness of analytical methods to describe the investigated elastic object.

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Optimization of Residual Stress Field and Improvement of Fatigue Properties of Thin-Walled Pipes by Filling Laser Shock Peening

Cited by 3 publications

References 36 publications

Numerical Simulation and Process Study on Laser Shock Peening of 1Cr18Ni9Ti Material

Numerical Simulation and Process Study on Laser Shock Peening of 1Cr18Ni9Ti Material

Improving tension fatigue performance of gray cast iron by LSPwC-induced gradient structure and carbon diffusion

Differential equations of oscillation of thin plates with point bonding

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