Drop-Shock Failure Prediction in Electronic Packages by Using Peridynamic Theory

Author

Agwai, Abigail ; Guven, Ibrahim ; Madenci, Erdogan

Author_Institution

Dept. of Aerosp. & Mech. Eng., Univ. of Arizona, Tucson, AZ, USA

Volume

2

Issue

3

fYear

2012

fDate

3/1/2012 12:00:00 AM

Firstpage

439

Lastpage

447

Abstract

Peridynamic (PD) theory is used to investigate the dynamic responses of electronic packages subjected to impact loading arising from drop-shock. The capability of the PD theory to predict failure is demonstrated by simulating a drop test experiment of a laboratory-type package. The failure predictions and observations are exceptionally similar. For the drop test simulation of a production-type package, the finite element method (FEM) and PD theory are coupled via a submodeling approach. The global modeling is performed using the FEM while the PD theory is employed for the submodeling and failure prediction. The analysis yielded the outermost solder joint as the critical joint, with failure at the interface between the solder and copper pad on the printed circuit board side.

Keywords

copper; dynamic response; electronics packaging; failure analysis; finite element analysis; impact (mechanical); printed circuits; solders; FEM; PD theory; copper pad; drop test experiment; drop test simulation; drop-shock failure prediction; dynamic responses; electronic packages; finite element method; global modeling; impact loading; laboratory-type package; peridynamic theory; printed circuit board side; production-type package; solder; submodeling approach; Finite element methods; Loading; Materials; Mathematical model; Soldering; Stress; Vectors; Cracking; drop-shock; failure; interface; peridynamics;

fLanguage

English

Journal_Title

Components, Packaging and Manufacturing Technology, IEEE Transactions on

Publisher

ieee

ISSN

2156-3950

Type

jour

DOI

10.1109/TCPMT.2011.2175924

Filename

6142056