空间太阳能电池粘接工艺的质量控制研究

Proceedings of 2004 International Conference on the Business of Electronic Product Reliability and Liability (IEEE Cat. No.04EX809) Pub Date : 2004-04-27 DOI:10.1109/BEPRL.2004.1308142

Z. Yan-zheng, Fu Zhuang, Y. Qinghua, C. Qixin, Chen Mingbo, Zhang Jun, J. Lee

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引用次数: 2

摘要

太阳能电池被广泛用于空间发电。抗辐照特性是普通太阳能电池与空间太阳能电池的重要区别之一。为了保证空间太阳能电池在空间环境中可靠工作，需要使用一种胶粘剂将抗辐照覆盖玻璃粘接到空间太阳能电池的活性表面，而合理的涂层厚度至关重要。结合机器人技术和粘接涂层技术，提出了一种空间太阳能电池自动粘接系统，该系统可以精确控制涂层厚度，实现非真空条件下的自动粘接。在非牛顿流体理论的基础上，建立了该系统的模型，推导出了空间太阳能电池涂层厚度的计算公式。对该模型进行了实验验证。

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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Study on quality control in the bonding processing of space solar cell

The solar cell is widely used for space power. The characteristic of anti-irradiation is one of the important differences between ordinary solar cells and space solar cells. In order to ensure a space solar cell works reliably in the space environment, it is necessary to bond the anti-irradiation cover-glass to the space solar cell active surface using a kind of adhesive, and it is vital to have a reasonable coating thickness. Combining robotics and adhesive-coating technology, this paper gives an automatic bonding system for space solar cells, which can precisely control the coating thickness and realize bonding automation in non-vacuum conditions. Moreover, on the basis of the theory of non-Newtonian fluids, the paper presents a model for this system and deduces the formula for the coating thickness of space solar cells. Experiments have been performed to validate this model.

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Proceedings of 2004 International Conference on the Business of Electronic Product Reliability and Liability (IEEE Cat. No.04EX809)

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