4.7 Article

Tensile properties dependency on crystal size and direction of single crystal Ag3Sn intermetallic compound: a molecular dynamics study

Journal

JOURNAL OF MATERIALS RESEARCH AND TECHNOLOGY-JMR&T
Volume 20, Issue -, Pages 2094-2108

Publisher

ELSEVIER
DOI: 10.1016/j.jmrt.2022.07.188

Keywords

Mechanical properties; Intermetallic compounds; SAC Solder and AnisotropicAg3Sn

Funding

  1. Chittagong University of Engineering & Technology (CUET)

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This study investigates the relationship between the tensile properties and directions of different sized single crystal anisotropic Ag3Sn. The fluctuations in tensile properties are analyzed in different crystal sizes and specific directions, and the optimal crystal size for maximum tensile properties is determined.
The necessities of lead-free solder alloys have been expanded by the advent of eco-friendly technologies of microelectronic packaging industry. Mostly lead-free solder alloys are SAC, which is the alloy of tin, silver and copper metal. Ag3Sn, Cu3Sn and Cu6Sn5 inter-metallic compounds are formed during microelectronic packaging, which reduce the properties of SAC solder joints adversely. The present study explores direction dependent tensile properties of various sized single crystal anisotropic Ag3Sn. Molecular dynamics simulation platform LAMMPS is used to examine the elastic behavior of these crystals by modified embedded atom method (MEAM) potential parameters. The atomistic investigation is performed for four crystal sizes of 30x30x30, 60x60x60, 90x90x90 and 120x120x120 angstrom(3) at a temperature of 298 K and a strain rate of 1010 s(-1). A comprehensive insight from this work is that the tensile properties fluctuations due to direction are within 13-25% at any distinct crystal size, whereas fluctuations at any specific direction are within 5-17% for mentioned interest of crystal sizes. An optimum crystal size of 60x60x60 angstrom(3), exhibits maximum tensile properties. However, the fracture initiation patterns are quite similar for all sizes and directions where the natures are investigated as ductile. (C) 2022 The Author(s). Published by Elsevier B.V.

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