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Prediction of shot peen forming effects with single and repeated impacts
- Source :
- International Journal of Mechanical Sciences. 137:182-194
- Publication Year :
- 2018
- Publisher :
- Elsevier BV, 2018.
-
Abstract
- Peen forming processing is widely used for shaping a large thin-walled component by introducing compressive stresses in surface layer. To predict the peening stress, expensive and time-consuming analyses were needed in experiments and numerical simulations. This paper is aimed to calculate the random peening effects based on the results of single and repeated impacts. Three kinds of finite element simulation models are adopted, including repeated impacts and two shots apart impacts as well as random peening models. With the repeatedly impacting simulations, the stress fields under different repeated numbers are obtained. With the two shots apart impacting simulations, the interactions of adjacent impacts are revealed and a size of isoeffect region of one impact obtained. Comparing the results of the repeated impacts and of random peening simulations, an expression is proposed to calculate random peening stresses with peening coverage less than 90% from the stresses of single and twice repeated impacts. Comparisons of the calculated and simulated stresses of random peening shows the same tendency and depth of compressive stress as well as the close magnitude of maximum compressive stress. The equivalent stretching force and bending moment of the calculated stress are in good agreement with the values of random peening simulation. The simulated results are verified with experimentally measured dimple sizes and resultant curvatures of peened plates.
- Subjects :
- 0209 industrial biotechnology
Materials science
business.industry
Mechanical Engineering
Magnitude (mathematics)
Peening
02 engineering and technology
Structural engineering
021001 nanoscience & nanotechnology
Condensed Matter Physics
Stress (mechanics)
020901 industrial engineering & automation
Compressive strength
Mechanics of Materials
Shot (pellet)
Dimple
Bending moment
General Materials Science
Surface layer
0210 nano-technology
business
Civil and Structural Engineering
Subjects
Details
- ISSN :
- 00207403
- Volume :
- 137
- Database :
- OpenAIRE
- Journal :
- International Journal of Mechanical Sciences
- Accession number :
- edsair.doi...........2787b68eb80d98e416d6709a13c435a3