A High-Load Stress Sensor for Scoliosis Surgery Application

D. Benfield, W. Moussa, E. Lou
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引用次数: 2

Abstract

The design of a stress sensor for a scoliosis surgery application is presented. Designed specifically for detecting forces and moments placed on spinal hooks and screws used in scoliosis correction, the sensor is less 2mm in the largest dimension and less than 0.5mm in thickness. The operative range is approximately 1000MPa in shear and normal stress directions. Preliminary FEA simulation of a piezoresistive sensor incorporating these design constraints demonstrates that different output signals are produced as the sensor is subjected to shear and normal stresses. When the separate signal patterns from several sensors are combined, the hooks and screws will be able to resolve forces and moments in three dimensions.
一种用于脊柱侧凸手术的高负荷应力传感器
压力传感器的设计为脊柱侧凸手术应用程序。该传感器专为检测脊柱侧凸矫正中脊柱钩和螺钉上的力和力矩而设计,最大尺寸小于2mm,厚度小于0.5mm。在剪切和正应力方向上,工作范围约为1000MPa。初步有限元分析模拟压阻传感器把这些设计约束表明传感器时产生不同的输出信号受到剪切和正常压力。当来自多个传感器的独立信号模式结合在一起时,挂钩和螺钉将能够在三维空间中解析力和力矩。
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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