摘要
本文研究了红外探测器中红外焦平面列阵的象元———铁电薄膜微桥在红外辐射作用下的输出信号。用层合板壳作为微桥结构的力学模型,中间一层为压电材料,上下两层为金属材料电极。采用了力-电-热耦合的控制方程和变分原理,考虑了铁电薄膜的惯性力,推导出了基于Mindlin假设的压电材料层合板有限元公式。以红外探测器在夜间从飞机上探测地面的坦克为例,用有限单元法模拟了铁电薄膜微桥在红外辐射作用下的力、热、电输出信号,并对结果作了分析比较。
The response of a micro-bolometer pixel structure, an essential component part in an infrared focal planar array of a infrared detector, to an infrared radiation was analyzed. The pixel structure was modeled as a composite laminate thin plate. Its middle ply is a PZT ferroelectric thin film. Its top surface, the infrared absorber, was covered with gold, while the lower surface is deposited with reflection metal - platinum. Meanwhile both surfaces are a pair of electrodes. The thermal electric mechanical coupling variational principles were established based on the governing equations. The finite element equations for composite laminate plates with Mindlin assumption, corresponding to the variational principles, were formulated. Taking the example that a tank on a sand ground was detected from the air at night, the dis- placement, temperature change and electric output signals of the micro-bolometer pixel structure were simulated by means of finite element method. The results from the simulation were analyzed.
出处
《力学季刊》
CSCD
北大核心
2006年第2期196-205,共10页
Chinese Quarterly of Mechanics
基金
国家自然科学基金资助的课题(10272081)
关键词
铁电薄膜
微桥结构
层合板
红外辐射
有限元
ferroelectric thin film
micro-bolometer pixel structure
composite laminate plate
infrared radiation
finite element method