Evaluation of residual stresses in CO2 laser beam welding of SS316L weldments using FEA

Evaluation of residual stresses in CO2 laser beam welding of SS316L weldments using FEA

Laser welding is used in critical component production when tight tolerances like minimal distortions and residual stresses are required. Laser beam welding offers a lower heat input, a smaller heat affected zone, lower residual stresses, minimum distortions, and greater mechanical joint characteris...

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Bibliographic Details
Main Authors: Harinadh Vemanaboina, M Mohan Babu, Inguva Chinmaya Prerana, Edison Gundabattini, Balram Yelamasetti, Kuldeep K Saxena, Karrar Hazim Salem, Muhammad Ijaz Khan, Sayed M Eldin, Manoj Kumar Agrawal
Format: Article
Language:English
Published: IOP Publishing 2023-01-01
Series:Materials Research Express
Subjects:
laser welding
heat flux
residual stresses
FEA
Online Access:https://doi.org/10.1088/2053-1591/acb0b5
Description
Summary:Laser welding is used in critical component production when tight tolerances like minimal distortions and residual stresses are required. Laser beam welding offers a lower heat input, a smaller heat affected zone, lower residual stresses, minimum distortions, and greater mechanical joint characteristics than conventional welding does. In order to simulate the laser welding process used on SS316L plates, the Gaussian heat source model was used. The model is developed and simulated with volumetric heat source model with APDL coding using ANSYS. The thermal profiles at the joint cross sections via welded area, interface across joints is taken for the analysis. The maximum temperature was observed at the fusion zone and associated zones. The residual stresses are analysed in the same path and found the stresses are in safe limits of base material. Predicted and experimentally measured residual stresses are close agreement with 10%.
ISSN:2053-1591

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