J.F.J.M. Caers scite author profile

J.F.J.M. Caers

4Publications

95Citation Statements Received

4Citation Statements Given

How they've been cited

212

How they cite others

Affiliations

Philips (Netherlands), NXP (Netherlands), Applied Technologies (United States)

Publications

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Stress–Strain Characteristics of Tin-Based Solder Alloys for Drop-Impact Modeling

Wong

Selvanayagam

Seah

et al. 2008

Journal of Elec Materi

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The stress-strain properties of eutectic Sn-Pb and lead-free solders at strain rates between 0.1 s -1 and 300 s -1 are required to support finite-element modeling of the solder joints during board-level mechanical shock and productlevel drop-impact testing. However, there is very limited data in this range because this is beyond the limit of conventional mechanical testing and below the limit of the split Hopkinson pressure bar test method. In this paper, a specialized drop-weight test was developed and, together with a conventional mechanical tester, the true stress-strain properties of four solder alloys (63Sn-37Pb, Sn-1.0Ag-0.1Cu, Sn-3.5Ag, and Sn-3.0Ag-0.5Cu) were generated for strain rates in the range from 0.005 s -1 to 300 s -1 . The sensitivity of the solders was found to be independent of strain level but to increase with increased strain rate. The Sn-3.5Ag and the Sn-3.0Ag-0.5Cu solders exhibited not only higher flow stress at relatively low strain rate but, compared to Sn-37Pb, both also exhibited higher rate sensitivity that contributes to the weakness of these two lead-free solder joints when subjected to drop impact loading.

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Advances in the drop-impact reliability of solder joints for mobile applications

Wong

Seah

Driel

et al. 2009

Microelectronics Reliability

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Mechanical Modeling and Characterization of the Curing Process of Underfill Materials

Ernst

Hof

Yang

et al. 2002

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Thermo-setting polymers are widely used as underfill materials to improve the reliability of electronic packages. In the design phase, the influence of underfill applications on reliability is often judged through thermal and mechanical simulations, under assumed operating conditions. Because of lacking insight into the mechanical processes due to polymer curing, the impact of processing induced residual stress fields is often neglected. To investigate the evolution of stress and strain fields during the curing process it is important to assume a more appropriate starting point for subsequent process modeling. Furthermore, study of possible damage originating from the fabrication process then comes within reach. To facilitate future analysis of stress and strain fields during the curing process a cure dependent constitutive relation is assumed. An approximate investigation method for the process-dependent mechanical properties, based on Dynamic Mechanic Analysis (DMA), is developed. As an illustration the parameter identification is performed for a selected epoxy resin.

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Correlation studies for component level ball impact shear test and board level drop test

Wong

Rajoo

Seah

et al. 2008

Microelectronics Reliability

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J.F.J.M. Caers

Stress–Strain Characteristics of Tin-Based Solder Alloys for Drop-Impact Modeling

Advances in the drop-impact reliability of solder joints for mobile applications

Mechanical Modeling and Characterization of the Curing Process of Underfill Materials

Correlation studies for component level ball impact shear test and board level drop test

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