Novel Concept of an In-situ Test System for the Thermal-Mechanical Fatigue Measurement for Reliability Evaluation of Electronic Solder Joints

2018 IEEE 20th Electronics Packaging Technology Conference (EPTC) Pub Date : 2018-12-01 DOI:10.1109/EPTC.2018.8654375

R. Metasch, M. Roellig, U. Naumann, Felix Wiesenhütter, R. Kaufmann

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引用次数: 1

Abstract

The development team has set itself the task of creating a new type of testing system for faster and more cost-effective reliability and service life evaluation. This system additionally measure in-situ the mechanical deformation and shear forces in the electronic joints during the action of temperature change loads. The system approach begins with a new type of temperature unit, which allows very fast and homogeneous heating of the test specimen and measuring chamber. The selection of suitable sensors for high-resolution, long-term stable measurement under the influence of temperature changes is a further sub-area of system development. The developments are accompanied by virtual system design and numerical calculations. First development results for the evaluation of concrete implementation concepts are presented. The focus will be on concepts for load introduction via a frame construction, through heating, force/displacement sensors and material selection based on thermal-mechanical measurements.

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电子焊点可靠性热-机械疲劳原位测试系统的新概念

开发团队为自己设定了创建一种新型测试系统的任务，以便更快、更经济地评估可靠性和使用寿命。该系统还对电子接头在温度变化荷载作用下的力学变形和剪切力进行了现场测量。系统方法从一种新型的温度单元开始，它允许非常快速和均匀地加热试样和测量室。在温度变化的影响下，选择合适的传感器进行高分辨率、长期稳定的测量是系统发展的另一个子领域。虚拟系统的发展伴随着虚拟系统的设计和数值计算。首先介绍了具体实施概念评估的开发结果。重点将放在通过框架结构、加热、力/位移传感器和基于热机械测量的材料选择来引入负载的概念上。

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2018 IEEE 20th Electronics Packaging Technology Conference (EPTC)

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