用激光检测技术优化锡膏的可印刷性

Seventeenth IEEE/CPMT International Electronics Manufacturing Technology Symposium. 'Manufacturing Technologies - Present and Future' Pub Date : 1995-10-02 DOI:10.1109/IEMT.1995.526187

T. Okura, M. Kanai, S. Ogata, T. Takei, H. Takakusagi

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引用次数: 23

摘要

本文介绍了一种利用锡膏检测系统和优化印刷参数的锡膏可印刷性评价技术。在表面贴装组件(SMA)中，准确评估焊膏的可印刷性是非常重要的，因为焊膏的可印刷性直接影响回流焊接的质量。我们建立了相当可靠的锡膏印刷量检验标准。因此，通过防止印刷缺陷，可以减少90%左右的回流焊缺陷。此外，由于封装类型在SMA中变化，高焊接质量要求所有模式的稳定印刷性。提出了一种基于质量工程(田口法)的印刷适性评价方法。通过对刮刀形状和打印机条件的优化，生产过程中的印刷适性提高了20%以上。并对添加锡膏和模板的打印条件进行了优化，在最佳条件下可打印出0.3 mm间距的图案。

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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Optimization of solder paste printability with laser inspection technique

This paper describes an evaluation technique for solder paste printability using a solder paste inspection system and optimization of printing parameters. In a Surface Mount Assembly (SMA), it is very important to evaluate printability of solder paste precisely, because printability of solder paste directly influences reflow soldering quality. We established quite reliable inspection criteria for print quantity of solder paste. So it was found that about 90% of reflow soldering defects could be reduced by prevention of printing defects. Furthermore, since package types have been varied in a SMA, high soldering quality demands stable printability for all patterns. This paper presents a printability evaluation adopted procedure based on the quality engineering (TAGUCHI method). As a result of optimizing squeegee shape and printer condition by this evaluation method, printability was improved better than 20% in the production process. And optimization of solder paste and stencil added to printer condition resulted in good printability for 0.3 mm pitch patterns on the optimum condition.

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来源期刊

Seventeenth IEEE/CPMT International Electronics Manufacturing Technology Symposium. 'Manufacturing Technologies - Present and Future'

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