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基于硅硅低温直接键合的MEMS打印喷头制作工艺 被引量:2

Fabrication process of MEMS print head based on silicon-silicon low temperature direct bonding
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摘要 针对一种MEMS压电式集成打印喷头复杂腔室结构的加工,提出了一套基于ICP刻蚀结合硅硅低温直接键合的制作工艺。首先通过ICP体硅干法刻蚀工艺分别制作了打印喷头的上下腔室结构,然后将带有上下腔室结构的两硅片进行低温直接键合,形成完整的打印喷头腔室。通过对打印喷头上下腔室结构的键合实验研究,进一步探索并验证了硅硅低温直接键合的机理,重点研究了不同活化方法和退火时间对复杂腔室结构键合质量的影响,优化了低温直接键合工艺,为带有复杂三维结构的MEMS器件的制作奠定了工艺基础。测试结果表明,制作完成的MEMS打印喷头具有较高的键合强度,且其腔室流道的完整性和密封性良好。 Aiming at the processing of complex chamber structure of MEMS piezoelectric integrated print head, a set of fabrication process based on ICP etching combined with silicon-silicon low temperature direct bonding was proposed. Firstly, the upper and lower chamber structures of the print head are separately fabricated by the ICP bulk silicon dry etching process, and then the two silicon wafers with the chamber structures are directly bonded at a low temperature to form a complete print head chamber. Through bonding experiments on the upper and lower chamber structures of the print head, the mechanism of silicon-silicon low temperature direct bonding was further explored and verified. Besides, the effects of different activation methods and annealing time on bonding quality were analyzed, and the bonding process was optimized. The low temperature direct bonding process lays the foundation for the fabrication of MEMS devices with complex three-dimensional structures. The test results show that the finished MEMS print head has a high bonding strength, and the chamber flow channel has good integrity and sealing.
作者 翟彦昭 蔡安江 张栋鹏 韩超 李力 ZHAI Yanzhao;CAI Anjiang;ZHANG Dongpeng;HAN Chao;LI Li(Shaanxi Key Laboratory of Nano Materials and Technology, Xi’an University of Architecture and Technology, Xi’an 710055, Shaanxi, China;State Key Laboratory of Manufacturing Systems Engineering, Xi’an Jiaotong University, Xi’an 710054, Shaanxi, China;China Metallurgical Group Corporation Baosteel Technology Services Company Limited, Shanghai 201999, China)
出处 《化工学报》 EI CAS CSCD 北大核心 2019年第3期1220-1226,共7页 CIESC Journal
基金 国家重点研发计划项目(2017YFB1102900) 陕西省教育厅科研计划项目(18JS059)
关键词 MEMS 低温直接键合 活化 界面 打印喷头 加工制造 MEMS low temperature direct bonding silicon activation interface print head fabrication
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