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Overview of Different Approaches in Numerical Modelling of Reflow Soldering Applications

机译:回流焊应用数值模拟的不同方法概述

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This paper gives a review of different applications in the numerical modelling of reflow soldering technology from recent years. The focus was on detailing the different process types, the physical background, and related mathematical models. Reflow soldering is the main connection technology of surface mounting. Firstly, the solder in paste form is stencil-printed onto the solder pads of the applied substrate, and then surface mounted devices are placed onto the solder deposits. Finally, the whole assembly is heated over the melting temperature of the solder alloy, which melts and forms solder joints. Surface mounting technology needs a low defect rate which is determined by process parameters, material properties, and the printed circuit board design. Accompanying the experiment and measurement, the identification and elimination of root causes can be effectively improved with numerical modelling, which also grants details to such physical mechanisms that are not even conventionally measurable. This paper is dealing with the following topics from the modelling point of view: an introduction of the different reflow technologies; a brief introduction of primary partial differential equations and calculation procedures; heat transfer mechanisms and thermomechanical stresses; and a brief summary of the results of selected studies. A short overview is also given about soft computing methods applied in reflow process optimisation.
机译:本文综述了近年来回流焊技术数值模拟的不同应用。重点是详细说明不同的过程类型、物理背景和相关的数学模型。回流焊是表面贴装的主要连接技术。首先,将糊状焊料模压到所应用基板的焊盘上,然后将表面贴装器件放置在焊料沉积物上。最后,整个组件在焊料合金的熔化温度上加热,熔化并形成焊点。表面贴装技术需要低缺陷率,这是由工艺参数、材料特性和印刷电路板设计决定的。伴随着实验和测量,数值建模可以有效地改善根本原因的识别和消除,这也为这种传统上无法测量的物理机制提供了细节。本文从建模的角度处理以下主题:介绍不同的回流焊技术;简要介绍初级偏微分方程和计算程序;传热机理和热机械应力;以及部分研究结果的简要总结。还简要概述了在回流焊工艺优化中应用的软计算方法。

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