SMT solder joint's shape and location optimization using modified genetic algorithm in the dynamic loadings

机译：SMT焊接接头的形状和位置优化在动态负载中使用改进的遗传算法

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Vibration fatigue has become an important factor impacting the SMT solder joint reliability and lifetime in dynamic loadings. In this paper shape and location optimization of SMT solder joints under vibration and shock conditions are investigated to raise their reliability and lifetime. A PBGA256 assembly is chosen to investigate the effect of shape and location of a SMT solder joint on its reliability under vibration and shock conditions. Then a modal experiment was performed to obtain the dynamic characteristics of the PBGA256 assembly. A finite element model, which is close to the PBGA256 assembly sample, is built based on the modal experiment. Then a modified genetic algorithm, which is a global optimization method, is used to perform shape and location of SMT solder joints based on the FEM of the PBGA256 assembly under shock conditions. The optimal results show the SMT solder joint with optimal location and shape has less maximum strain. As a result, reliability of SMT solder joint with those optimal parameters is better.

机译：振动疲劳已成为影响动态载荷中SMT焊点可靠性和寿命的重要因素。在本文中，研究了SMT焊点的形状和位置优化，并研究了振动和休克条件下的抗震条件，以提高其可靠性和寿命。选择PBGA256组件以研究SMT焊点的形状和位置在振动和冲击条件下其可靠性的影响。然后进行模态实验以获得PBGA256组件的动态特性。基于模态实验，构建了靠近PBGA256装配样品的有限元模型。然后，一种改进的遗传算法，其是全局优化方法，用于基于在休克条件下基于PBGA256组装的FEM来执行SMT焊点的形状和位置。最佳结果表明，具有最佳位置和形状的SMT焊点具有较少的最大菌株。结果，SMT焊点与那些最佳参数的可靠性更好。

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《International Conference on the Business of Electronic Product Reliability and Liability》|2004年||共5页
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Ling-yun Wei; Mei Zhao; Qiang Guo; Xiao-chang Zhang;
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正文语种
中图分类半导体技术;
关键词
surface mount technology; stress-strain relations; fatigue; soldering; finite element analysis; genetic algorithms; reliability; ball grid arrays; surface mount technology; modified genetic algorithm; solder joint reliability; solder joint lifetime; modal experiment; SMT; vibration fatigue; solder joint shape optimization; solder joint location optimization; shock conditions; finite element model; PBGA256 assembly; FEM; solder joint strain; dynamic loadings;

机译：表面安装技术;应力关系;疲劳;焊接;有限元分析;遗传算法;可靠性;球栅阵列;表面贴装技术;改性遗传算法;焊接关节可靠性;焊点寿命;SMT;SMT;振动疲劳;焊点形状优化;焊接接头位置优化;休克条件;有限元模型;PBGA256组装;FEM;焊接关节应变;动态载荷;

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专利

1. Fatigue of SMT solder joint including torsional curvature and chip location optimization [J] . Qiang Guo, Mei Zhao The International Journal of Advanced Manufacturing Technology . 2005,第7a8期

机译：SMT焊点疲劳，包括扭转曲率和芯片位置优化
2. Reliable shape optimization of structures subjected to transient dynamic loading using genetic algorithms [J] . Sabyasachi Chand, Anjan Dutta Shock and vibration . 2005,第6期

机译：使用遗传算法对承受瞬态动态载荷的结构进行可靠的形状优化
3. Reliable Shape Optimization of Structures Subjected to Transient Dynamic Loading Using Genetic Algorithms [J] . SabyasachiChand, AnjanDutta Shock and vibration . 2005,第6期

机译：遗传算法在动态载荷作用下结构的可靠形状优化
4. SMT solder joint's shape and location optimization using modified genetic algorithm in the dynamic loadings [C] . Ling-yun Wei, Mei Zhao, Qiang Guo, . 2004

机译：动态载荷下基于改进遗传算法的SMT焊点形状和位置优化
5. Optimization of strongly nonlinear dynamical systems using a modified genetic algorithm with micro-movement (MGAM). [D] . Wei, Xing. 2009

机译：使用带有微运动的改进遗传算法（MGAM）优化强非线性动力学系统。
6. Decreasing Shear Stresses of the Solder Joints for Mechanical and Thermal Loads by Topological Optimization [O] . Jan Awrejcewicz, Sergey P. Pavlov, Anton V. Krysko, 2020

机译：通过拓扑优化减少机械和热负荷焊点的剪切应力
7. Actuator Location and Voltages Optimization for Shape Control of Smart Beams Using Genetic Algorithms [O] . Georgios E. Stavroulakis, Evangelos P. Hadjigeorgiou, Christos G. Gogos, 2013

机译：基于遗传算法的智能梁形状控制的执行器定位和电压优化
8. Genetic Algorithms Applied to Multi-Objective Aerodynamic Shape Optimization [R] . Holst, Terry L. 2005

机译：遗传算法在多目标气动外形优化中的应用

SMT solder joint's shape and location optimization using modified genetic algorithm in the dynamic loadings

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