Publication | Closed Access
3D Nonlinear Stress Analysis of Tin Whisker Initiation on Lead-Free Components
19
Citations
6
References
2003
Year
EngineeringSpontaneous Chemical ReactionSevere Plastic DeformationMechanical EngineeringResidual StressMetal ProcessingNonlinear Stress AnalysisLead-free ComponentsStressstrain AnalysisMaterials ScienceMaterials EngineeringPowder MetallurgyMechanical BehaviorSolid MechanicsPlasticityMetal FormingMicrostructureApplied PhysicsMetallurgical ProcessMetallurgical SystemMechanics Of MaterialsTin Whisker InitiationHigh Strain Rate
In this study, a three-dimensional (3D) nonlinear stress analysis of the tin whisker initiation on a pure matte Sn-plated copper substrate is investigated. The structure is subjected to a compressive stress acting at the Sn layer which is generated by the spontaneous chemical reaction of the Sn layer and the Sn5Cu6 layer. The Sn layer is assumed to be an elasto-plastic material. The results presented herein is useful in understanding why the compressive stress in the Sn layer can initiate a tin whisker near the weak spot of a SnOx layer.
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