跌落冲击下焊点剥落应力的缩尺度计算方法

2008 International Conference on Electronic Packaging Technology & High Density Packaging Pub Date : 2008-07-28 DOI:10.1109/ICEPT.2008.4606968

An Tong, Q. Fei

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引用次数: 0

摘要

采用板级电子封装梁模型，研究了跌落/冲击过程中产生的弯矩、轴力和剪切力对焊接接头剥离应力的影响。研究了PCB在静态弯曲和动态弯曲下焊接接头的剥落应力。结果表明，剥离应力以弯曲应力为主，最大剥离应力发生在PCB端。在焊接接头阵列中，只有少数靠近封装远端的焊接接头受到应力，阵列内的大多数接头几乎没有应力。在此基础上，提出了一种减小计算规模的方法。通过该方法，计算模型中只需要包含3或4个焊点。

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A scale reduced computation scheme for peeling stress of solder joints under drop impact

A beam model of board level electronic package was used to investigate effects of the moment, axial force and shear force induced during drop/impact on the peeling stress of the soldered joints. The peeling stresses in soldered joints were evaluated under static and dynamic bending of the PCB. It shows that the peeling stress is dominated by the bending stress and the maximum occurs at the PCB end. In the soldered joint array, only a few soldered joints closed to the far end of the packaging are stressed and the most joints inside the array are almost stress free. Based on this observation, an approach was proposed to reduce the computation scale. By the approach, only 3 or 4 soldered joints are necessary to be included in the computational model.

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2008 International Conference on Electronic Packaging Technology & High Density Packaging

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