New approach to estimate coverage parameter in 3D FEM shot peening simulation

Pham, Trung Quang; Khun, Nay Win; Butler, David

doi:10.1080/02670844.2016.1274536

Cited by 34 publications

(18 citation statements)

References 26 publications

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“…The values of these variables can be controlled to formulate different RS distributions by adjusting shot peening process parameters such as the shot velocity, shot size, coverage, etc. [ 24 ].…”

Section: Residual Stress Distributionmentioning

confidence: 99%

Residual Stress Distribution Design for Gear Surfaces Based on Genetic Algorithm Optimization

et al. 2021

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The rolling contact fatigue of gear surfaces in a heavy loader gearbox is investigated under various working conditions using the critical plane-based multiaxial Fatemi–Socie criterion. The mechanism for residual stress to increase the fatigue initiation life is that the compressive residual stress has a negative normal component on the critical plane. Based on this mechanism, the genetic algorithm is used to search the optimum residual stress distribution that can maximize the fatigue initiation life for a wide range of working conditions. The optimum residual stress distribution is more effective in increasing the fatigue initiation life when the friction coefficient is larger than its critical value, above which the fatigue initiation moves from the subsurface to the surface. Finally, the effect on the fatigue initiation life when the residual stress distribution deviates from the optimum distribution is analyzed. A sound physical explanation for this effect is provided. This yields a useful guideline to design the residual stress distribution.

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Section: Residual Stress Distributionmentioning

confidence: 99%

Residual Stress Distribution Design for Gear Surfaces Based on Genetic Algorithm Optimization

et al. 2021

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“…This aspect must be established through systematic experimentation and then incorporated into the calculation program. It is found that increasing the hardness, velocity and size of the shot is an effective method to obtain a higher level of residual stress and a deeper residual stress zone in the target material [30]. Therefore, the shot used is a high-strength steel wire cut shot produced according to DIN8201 standard, with a hardness of 750-850 HV, which is the hardest shot for the existing 0.2 mm diameter specifications.…”

Section: Analytical Calculation Model Of Coveragementioning

confidence: 99%

“…Lin et al [28,29] found that increasing the coverage of shot peening can improve the maximum CRS value and the size of plastic strain, but has little effect on the thickness of the CRS layer and no obvious regularity on the roughness value. Pham et al [30] used finite element methods to find that coverage has a significant effect on the distribution of CRS in the AISI 4340 steel. Increasing coverage, shot speed, and shot size are effective methods for obtaining higher and deeper levels of CRS field.…”

Section: Introductionmentioning

confidence: 99%

Analytical model for predicting coverage in suspension waterjet shot peening and its influence on fatigue

Sun

et al. 2023

Mater. Res. Express

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Suspension waterjet peening is an emerging technology for surface modification. Coverage is a key factor affecting the integrity of a modified material surface, however such an experimental method that can be utilized for precise control has not yet been established. To determine the numerical value of coverage after surface peening treatment, In this paper, a coverage analytical method was proposed and then verified by the results through experiments. Furthermore, to explore the impact of high coverage on surface integrity, a large-scale coverage peening modification was performed on 18CrNiMo7-6 carburized steel specimens using a specialized suspension waterjet equipment. The results indicate that coverage has a significant impact on roughness and compressive residual stress field, with the highest improvement on surface and their maximum values reaching 51.6% and 24.7%, respectively. It is shown that the fatigue performance of the specimens can be significantly enhanced.

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“…16 In the SP process, the above parameters are usually converted into generic ones (shot intensity and coverage) with the help of Almen specimens; 17,18 different combinations of SP parameters can produce the same Almen intensity, each resulting in a different RS distribution over the entire thickness. 19 SP intensity and coverage have significant effects on SP-induced RS, 20 and the number of SP treatments is also considered; 21 two SP treatments and applied prestressing 22 can optimize the distribution of compressive RS and microstructures, 23 and multiple SP treatments contribute to the formation of an impact layer with high compressive RS under moderate work-hardening conditions. 24 Also, the effects of temperature 25 and double-sided SP 26 on RS have been considered, and multivariate regression analysis has been used to evaluate the interaction between SP parameters and RS profiles.…”

Section: Introductionmentioning

confidence: 99%

Effects of shot-peening parameters, path, and sequence on residual stress of TC17 alloy

Zhang

Yao

Tan

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part B:

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Aeroengine parts are manufactured mostly from high-strength titanium alloys to meet aeroengine requirements, and shot peening is used to improve the fatigue life of such parts. Shot peening introduces compressive residual stress within the impact layer, and different shot-peening conditions produce different residual-stress fields. In this paper, the residual stress induced by shot peening is investigated. Different shot-peening parameters (air pressure, flow rate, nozzle speed, distance), paths, and sequences are planned for block and thin-plate specimens, and their effects on the consequent residual stress are investigated. The air pressure, flow rate, and nozzle speed have large effects on the residual stress, as do the shot-peening sequence and path, thereby providing technical support for the subsequent work of optimizing the residual stress after shot peening.

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New approach to estimate coverage parameter in 3D FEM shot peening simulation

Cited by 34 publications

References 26 publications

Residual Stress Distribution Design for Gear Surfaces Based on Genetic Algorithm Optimization

Residual Stress Distribution Design for Gear Surfaces Based on Genetic Algorithm Optimization

Analytical model for predicting coverage in suspension waterjet shot peening and its influence on fatigue

Effects of shot-peening parameters, path, and sequence on residual stress of TC17 alloy

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