用于机器人中柔性微机电系统触觉和流量传感器的氮化物基材料

Nitride-Based Materials for Flexible MEMS Tactile and Flow Sensors in Robotics.

作者信息

Abels Claudio, Mastronardi Vincenzo Mariano, Guido Francesco, Dattoma Tommaso, Qualtieri Antonio, Megill William M, De Vittorio Massimo, Rizzi Francesco

机构信息

Center for Biomolecular Nanotechnologies @UNILE, Istituto Italiano di Tecnologia (IIT), Arnesano (LE) 73010, Italy.

Università del Salento, Dipartimento di Ingegneria dell'Innovazione, Lecce 73100, Italy.

出版信息

Sensors (Basel). 2017 May 10;17(5):1080. doi: 10.3390/s17051080.

DOI:10.3390/s17051080

PMID:28489040

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5470470/

Abstract

The response to different force load ranges and actuation at low energies is of considerable interest for applications of compliant and flexible devices undergoing large deformations. We present a review of technological platforms based on nitride materials (aluminum nitride and silicon nitride) for the microfabrication of a class of flexible micro-electro-mechanical systems. The approach exploits the material stress differences among the constituent layers of nitride-based (AlN/Mo, Si x N y /Si and AlN/polyimide) mechanical elements in order to create microstructures, such as upwardly-bent cantilever beams and bowed circular membranes. Piezoresistive properties of nichrome strain gauges and direct piezoelectric properties of aluminum nitride can be exploited for mechanical strain/stress detection. Applications in flow and tactile sensing for robotics are described.

摘要

对于经历大变形的柔顺和柔性器件的应用而言，对不同力负载范围的响应以及低能量下的驱动具有相当大的研究意义。我们综述了基于氮化物材料（氮化铝和氮化硅）的技术平台，用于一类柔性微机电系统的微制造。该方法利用氮化物基（AlN/Mo、SiₓNy/Si和AlN/聚酰亚胺）机械元件组成层之间的材料应力差异来创建微结构，如向上弯曲的悬臂梁和弯曲的圆形膜。可以利用镍铬合金应变片的压阻特性和氮化铝的直接压电特性来检测机械应变/应力。文中描述了其在机器人的流量和触觉传感方面的应用。

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用于机器人中柔性微机电系统触觉和流量传感器的氮化物基材料

Nitride-Based Materials for Flexible MEMS Tactile and Flow Sensors in Robotics.

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