Mating and piercing micromechanical structures for surface bonding applications

[1991] Proceedings. IEEE Micro Electro Mechanical Systems Pub Date : 1991-01-30 DOI:10.1109/MEMSYS.1991.114806
H. Han, L. Weiss, M. Reed
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引用次数: 19

Abstract

The authors have developed two types of micromechanical structures, using silicon micromachining techniques, which act as mechanical adhesives. Arrays of structures are fabricated on standard silicon wafers, with an areal density of approximately 200000 per cm/sup 2/, resulting in very strong bonds. Individual components are 4-18 mu m wide, and 4-15 mu m high above the substrate. Mating structures, which interlock with themselves, and piercing structures, which interlock with biological tissues, have been fabricated and tested. The mechanical behavior of this micromechanical velcro is in approximate agreement with the calculated strength.<>
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表面粘合应用的配合和穿孔微机械结构
作者已经开发了两种类型的微机械结构,使用硅微加工技术,作为机械粘合剂。在标准硅片上制造结构阵列,其面密度约为每厘米/sup 2/ 20万,从而产生非常牢固的键。单个组件宽4-18 μ m,高出基板4-15 μ m。已经制造并测试了与自身互锁的配对结构和与生物组织互锁的穿刺结构。该微机械尼龙搭扣的力学性能与计算强度基本一致。
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来源期刊
[1991] Proceedings. IEEE Micro Electro Mechanical Systems
[1991] Proceedings. IEEE Micro Electro Mechanical Systems
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Fabrication of micro-structures using non-planar lithography (NPL) In situ observation and analysis of wet etching process for micro electro-mechanical systems Silicon wafer bonding techniques for assembly of micromechanical elements Microtribology related to MEMS-Concept, measurements, applications Characteristics of an ultra-small biomotor
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