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All issues Volume 648 (2025) E3S Web Conf., 648 (2025) 01016 References
Open Access
Issue
E3S Web Conf.
Volume 648, 2025
International Conference on Civil, Environmental and Applied Sciences (ICCEAS 2025)
Article Number 01016
Number of page(s) 10
Section Civil Engineering
DOI https://doi.org/10.1051/e3sconf/202564801016
Published online 08 September 2025
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  3. de Azevedo, A. M., Magalhães, E.D. S., da Silva, R.G. D., & Lima E Silva, S. M. M. de. (2022). A comparison between nonlinear and constant thermal properties approaches to estimate the temperature in LASER welding simulation. Case Studies in Thermal Engineering, 35. https://doi.org/10.1016/j.csite.2022.102135 [Google Scholar]
  4. Yelamasetti, B., Devi, B.T. L., Saxena, K. K., Sonia, P., Vardhan, T. V., Sree, N. S., khubnani, R., Abdo, H. S., & Alnaser, I. (2024). Mechanical characterization and microstructural evolution of Inconel 718 and SS316L TIG weldments at high temperatures. Journal of Materials Research and Technology, 32, 196–207. https://doi.org/10.1016/J.JMRT.2024.07.157 [Google Scholar]
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  6. Choudhury, B., Singh, V., Selvarajan, L., Goel, S., & Chandrasekaran, M. (2024). Synergic investigation of microstructure, precipitation, and micro-segregation on Inconel 825 weldments: A comparative study between GTAW and EBW. Materials Chemistry and Physics, 318, 129249. https://doi.org/10.1016/J.MATCHEMPHYS.2024.129249 [CrossRef] [Google Scholar]
  7. Zarei, A., Akbari, M., Abdollahi, A., & Soleimanimehr, H. (2024). Experimental and numerical study of dissimilar fiber laser welding of martensitic AISI 1060 carbon steel with different configuration with austenitic 304 and ferritic 420 stainless steel. Heliyon, 10(21), e39954. https://doi.org/10.1016/J.HELIYON.2024.E39954 [Google Scholar]
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  9. Patel, V., Sali, A., Hyder, J., Corliss, M., Hyder, D., & Hung, W. (2020). Electron Beam Welding of Inconel 718. Procedia Manufacturing, 48, 428–435. https://doi.org/10.1016/J.PROMFG.2020.05.065 [Google Scholar]
  10. Meng, G., Gong, Y., Zhang, J., & Zhao, J. (2024). The microstructural evolution and mechanical response of laser direct energy deposition Inconel 718 alloy based on simulation and experimental methods. Engineering Failure Analysis, 161, 108334. https:// doi.org/10.1016/J.ENGFAILANAL.2024.108334 [Google Scholar]
  11. Vemanaboina, H., Akella, S., Buddu, R.K. et al. Prediction of thermal and residual stress distributions in SS304 materials for nuclear application using finite element analysis. Int J Interact Des Manuf 18, 6423–6430 (2024). https://doi.org/10.1007/s12008-022-01153-z [Google Scholar]
  12. Zhang, K., Liu, C., Wang, W., Ju, H., Liu, W., Wang, H., & Bian, H. (2025). Microstructure, performance, strengthening and toughening mechanisms of WC-reinforced Inconel 625 gradient composite coating by laser cladding on nonmagnetic steel. Surface and Coatings Technology, 496, 131657. https://doi.org/10.1016/J.SURF-COAT.2024.131657 [Google Scholar]
  13. Yelamasetti, B., Ramana, G. ., Sanke, N. et al. Numerical and experimental residual stress analysis of dissimilar metals of Inconel 718 and AISI 316 developed in GTAW process. Int J Interact Des Manuf 18, 2093–2105 (2024). https://doi.org/10.1007/ s12008-022-00932-y [Google Scholar]
  14. Pugacheva, N. B., Veretennikova, I. A., Khalevitsky, Y. v., & Smirnova, E. O. (2022). Numerical simulation of elastic-plastic deformation of AISI 321/Cu/Ti laser welded joint under tension and compression. Materials Characterization, 189, 111984. https:// doi.org/10.1016/J.MATCHAR.2022.111984 [Google Scholar]

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