Journal of Materials Research and Technology (Jan 2024)

Effect of microwave hybrid susceptors on the interface morphology, mechanical properties and fracture morphology of Cu/nano-Sn-3.0Ag-0.5Cu/Cu joints

  • Shuai Zhang,
  • Hongzhi Zhou,
  • Tianran Ding,
  • Weimin Long,
  • Sujuan Zhong,
  • Kyung-Wook Paik,
  • Peng He,
  • Shuye Zhang

Journal volume & issue
Vol. 28
pp. 1743 – 1751

Abstract

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The utilization of microwave hybrid heating in the field of low-temperature joining presents a notable benefit of delivering both selective and uniform heating, a feature that is not commonly observed in traditional welding methods. This work utilized numerical simulation to predict the heating effects of three susceptors. Furthermore, the impacts of susceptor variants on the interface morphology, mechanical properties, and fracture morphology of the Sn-3.0 Ag-0.5 Cu joint were studied. In the current study, the normal MHH technique was utilized with parameters of 900 W and 240 s to achieve successful joint production. According to the numerical simulation, the heating rate of carbon powder as a susceptor was found to be greater than that of graphite, while silicon carbide susceptor exhibited the slowest heating rate. Nevertheless, the combustion of carbon powder during the MHH process poses a potential risk to the integrity of the microwave cavity. As a result, graphite powder was selected as a more suitable susceptor. The experimental findings indicate that the shear strength of the joint with silicon carbide and charcoal as the susceptor is 75.4 % and 91.0 % of that with graphite as the susceptor, respectively. The fracture modes of the three samples with various susceptors are mixed fracture.

Keywords