Effects of different vibration directions on the damage mechanism of BGA under vibration loading coupled with cyclic thermal

2016 Prognostics and System Health Management Conference (PHM-Chengdu) Pub Date : 2016-10-01 DOI:10.1109/PHM.2016.7819859

Zengjin Sheng, Bo Jing, Wei Tang, Jiaxing Hu, Jiayan Dong

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引用次数: 4

Abstract

In this paper, the effects of different vibration directions on the damage mechanism of BGA are analyzed under vibration loading coupled with cyclic thermal. The PCB board is designed to install the BGA chip and the specific fixture is designed to fix the test piece of PCB board on the temperature-vibration test chamber. Thus the BGA joins can be tested under vibration of directions of 0 degrees, 30 degrees, 45 degrees, and 90 degrees, coupled with cyclic thermal. Results indicate that different vibration directions greatly affect the damage mechanism of BGA joint, rate of strain accumulation are about 0.1με/min in direction of 45°, 0.05με/min in direction of 90°,0.14με/min in direction of 30°, and 0.16με/min in direction of 0°, which show that the strain accumulation near solder joints under horizontal vibration rises fastest, and the strain accumulation near solder joints under vertical vibration rises slowest. Besides, fluctuation amplitudes of strains near solder joints are different, fluctuation amplitudes of strains under horizontal vibration is largest, and fluctuation amplitudes of strains under vibration of 30° is smallest.

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振动载荷与循环热耦合作用下不同振动方向对BGA损伤机理的影响

本文分析了振动载荷与循环热耦合作用下，不同振动方向对BGA损伤机理的影响。设计PCB板安装BGA芯片，设计专用夹具将PCB板试件固定在温度-振动试验室上。因此，BGA连接可以在0度、30度、45度和90度方向的振动下进行测试，并结合循环热。结果表明:不同的振动方向对BGA接头的损伤机制影响较大，45°方向上的应变积累速率约为0.1με/min, 90°方向上的应变积累速率为0.05με/min, 30°方向上的应变积累速率为0.14με/min,0°方向上的应变积累速率为0.16με/min，表明水平振动下焊点附近的应变积累增长最快，垂直振动下焊点附近的应变积累增长最慢。此外，焊点附近应变波动幅度不同，水平振动下应变波动幅度最大，30°振动下应变波动幅度最小。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2016 Prognostics and System Health Management Conference (PHM-Chengdu)

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