底充胶叠层PBGA无铅焊点随机振动应力应变分析

黄春跃; 梁颖; 邵良滨; 黄伟; 李天明

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底充胶叠层PBGA无铅焊点随机振动应力应变分析
黄春跃¹, 梁颖², 邵良滨¹, 黄伟¹, 李天明³
1.桂林电子科技大学机电工程学院, 桂林 541004;2.成都航空职业技术学院电子工程系, 成都 610021;3.桂林航天工业学院汽车与动力工程系, 桂林 541004

摘要:

建立了底充胶叠层塑料球栅阵列(plastic ball grid array, PBGA)无铅焊点三维有限元分析模型,研究了PBGA结构方式、焊点材料、底充胶弹性模量和密度对叠层无铅焊点随机振动应力应变的影响. 结果表明,底充胶可有效降低焊点内的随机振动应力应变;在其它条件相同下,对于Sn95.5Ag3.8Cu0.7,Sn96.5Ag3Cu0.5,Sn-3.5Ag和Sn63Pb37这四种焊料,采用Sn-3.5Ag的底充胶叠层焊点内的随机振动最大应力应变最小,采用Sn96.5Ag3Cu0.5的焊点内的最大应力应变最大;随着底充胶弹性模量的增大,叠层无铅内的随机振动应力应变值相应减小;随着底充胶密度的增大,叠层无铅内的随机振动应力应变值相应增大.

关键词: 叠层无铅焊点底充胶随机振动有限元分析应力应变

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基金项目:国家自然科学基金资助项目(51465012);广西壮族自治区自然科学基金资助项目(2013GXNSFAA019322,2015GXNSFCA139006)

Stress and strain distribution of PBGA stacked lead-free solder joints with underfill with random vibration

HUANG Chunyue¹, LIANG Ying², SHAO Lingbin¹, HUANG Wei¹, LI Tianming³

1.School of Electro-Mechanical Engineering, Guilin University of Electronic Technology, Guilin 541004, China;2.Department of Electronic Engineering, Chengdu Aeronautic Vocational and Technical College, Chengdu 610021, China;3.Department of Automobile and Power Engineering, Guilin University of Aerospace Technology, Guilin 541004, China

Abstract:

The 3D finite element analysis model of plastic ball grid array(PBGA) stacked lead-free solder joints with underfills was developed. By using ANSYS the finite element analysis was performed based on the model with random vibration. The influences of PBGA assembly structure, solder joint material, underfill elastic modulus and underfill density on PBGA stacked lead-free solder joint stress and strain under random vibration load were respectively studied. The results show that comparing to the no-underfill stacked solder joints the stress and strain in the stacked solder joint can be effectively reduced under random vibration load. When other conditions being equal, for Sn95.5Ag3.8Cu0.7, Sn96.5Ag3Cu0.5, Sn-3.5Ag and Sn63Pb37, the lead free Sn-3.5Ag stack solder joint has the minimum stress and strain while the lead-free SAC305 stack solder joint has the maximum stress and strain in the solder ball. The stress and strain in the lead-free stacked solder was reduced with the increase of underfill elasticity modulus. With the increase of the underfill density, the stress and strain in the stacked lead-free solder joint increased correspondingly.

Key words: stacked lead-free solder joint underfill random vibration finite element analysis stress and strain