Jean-Luc Diot scite author profile

Transient Liquid Phase (TPL) bounding of Sn foil sandwiched between two Cu foils involves, in the temperature range above the melting point of Sn (232°C) and below 350°C, the formation and the growth of two intermetallic compounds (IMCs) Cu6Sn5 and Cu3Sn and mostly unintended micro-pores. The present study aims to analyze the mechanism of void development during the soldering process through an experimental and modeling approach of diffusion controlled IMC transformation. This modeling couples the diffusion process and the interface motion with the volume shrinkage induced by the difference of partial molar volumes of atoms between each phase. We also consider two types of interdiffusion transports: i) inter-diffusion based on the exchange of Cu and Sn-atoms and ii) inter-diffusion of Sn atoms with vacancies allowing Kirkendall void formation. The simulations of IMC growth performed corresponds to a sequence of planar phase layers, where the distinctive scallop morphology of the Cu6Sn5 layer is described through an analytical function allowing to quantify the grain boundary diffusion pathway. We take into account of the volume diffusion mechanism for Cu3Sn intermetallic.For Cu6Sn5 intermetallic two mechanisms are considered, volume diffusion and grain boundary diffusion, limited by grain growth. The simulations of IMC growth kinetics, for different transport scenarios, are compared to the experimental evolving morphologies to determine the most likely mechanism of micro-void formation.

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Influence of low-temperature fluorination process on the characteristics of superconductors YBa2Cu3O7−δ and Bi4(Ca, Sr)6Cu4O16+δ

Tressaud

Chevalier

Lépine

et al. 1989

Solid State Ionics

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Liquid Crystal Polymer for QFN packaging: Predicted thermo-mechanical fatigue and Design for Reliability

Chenniki

Bord‐Majek

Louarn³

et al. 2015

Microelectronics Reliability

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Jean-Luc Diot

pH dependence of the Si/SiO2 interface state density for EOS systems

Understanding of Void Formation in Cu/Sn-Sn/Cu System During Transient Liquid Phase Bonding Process Through Diffusion Modeling

Influence of low-temperature fluorination process on the characteristics of superconductors YBa2Cu3O7−δ and Bi4(Ca, Sr)6Cu4O16+δ

Liquid Crystal Polymer for QFN packaging: Predicted thermo-mechanical fatigue and Design for Reliability

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