Heliyon (Apr 2024)

Design of dissimilar material joint for defect-free multi-material additive manufacturing via laser-directed energy deposition

  • Qing-Ye Jin,
  • Hyunji Nam,
  • Haeju Jo,
  • Jiyoung Park,
  • Ho Ju Kang,
  • Dong Joo Kim,
  • Wookjin Lee

Journal volume & issue
Vol. 10, no. 8
p. e29666

Abstract

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Additive manufacturing technology has advanced beyond creating optimized features, from strengthening materials to make them lightweight to fabricating multi-material combinations that offer functionalities beyond the capabilities of individual materials. In this study, a lamination method for laser-directed energy deposition (LDED) is developed to achieve dense multi-material features, and a design that combines different and dissimilar materials is developed. To evaluate these novel developments, two materials—AISI 316L stainless steel and Inconel 625—are introduced. Tensile specimens, fabricated via multi-material additive manufacturing using LDED, are subjected to tensile tests that are recorded on video for digital image correlation. After the tests, fracture surface analyses of the fractured specimens are performed via scanning electron microscopy, and optical monitoring analyses are performed on the specimens that are not subjected to the tensile tests. The results indicate that the specimens demonstrate varied mechanical properties due to the influence of lamination direction and order, which affect the formation of critical cracks and pores.

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