International Journal of Mechanical and Production Engineering (IJMPE)
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Statistics report
Feb. 2020
Submitted Papers : 80
Accepted Papers : 10
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Acc. Perc : 12%
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Paper Published : 1974
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  Journal Paper

Paper Title :
Effect of Process Parameters on Developed Residual Stresses in a Laser Processed Steel Component

Author :Stephen A. Akinlabi, Madindwa P. Mashinini, Olawale O. Fatoba, Esther T. Akinlabi

Article Citation :Stephen A. Akinlabi ,Madindwa P. Mashinini ,Olawale O. Fatoba ,Esther T. Akinlabi , (2018 ) " Effect of Process Parameters on Developed Residual Stresses in a Laser Processed Steel Component " , International Journal of Mechanical and Production Engineering (IJMPE) , pp. 5-9, Volume-6,Issue-2

Abstract : Residual stresses in manufactured components are caused by material plastic deformation, induced steep thermal gradients and phase transformation among others. Laser beam processing being a complex thermo-mechanical process is influenced by different process parameters. The process of making a desired shape configuration through laser beam may take a process of combining different process parameter to manufacture a component with good structural integrity. The thermo-mechanical phenomena involve heating and cooling phases whereby setting up temperature gradients through the thickness of the material and consequently induces thermal stresses. The X-ray diffraction method is a non-destructive technique for the measurement of residual stresses on the surface of the material and few microns into the material. X-ray diffraction techniques take advantage of the fact that when a metal is under stress, either applied or residual stress, the resulting elastic strains cause the atomic planes in the metallic crystal structure to change their spacing’s. This study reports on the effect of process parameters on the developed residual stresses in the laser processed steel component. The result confirms that the generated residual stresses were the aftermath of the non-uniform thermal expansion and contraction. A significant change in the stress tensor was measured in the processed sheet steel at a high laser power of 3.0kW. Similarly, the stress tensors were also measured for the parent material and the processed sheet steel at a low laser power of 1.8kW. Both transverse and longitudinal stresses are tensile and dominant in the longitudinal direction for the laser beam processed sheet steel while compressive for the parent material. Index Terms - Residual Stress, Structural Integrity, Thermo-Mechanical, and X-ray Diffraction.

Type : Research paper

Copyright: © Institute of Research and Journals

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