【摘要】 针对弹药热安全检测中压力检测的需求，设计了一种基于光纤光栅的高温压力传感器。通过深入研究传感构型的弹性形变对光纤光栅输出信号波长的影响和作用机制，设计了传感器封装模型结构，并对其内部参数进行了优化设计。应用有限元建立了传感器封装结构的三维立体模型，通过对模型施加10 MPa载荷，实现了模型的受压仿真，仿真结果验证了传感器压力转换结构设计的合理性。同时以薄板小挠度变形理论为基础，计算出传感器的理论压力灵敏度，设计了传感器的温度补偿方式，进行了不同温度环境下的压力校准实验，得出了传感器在不同温度的压力灵敏度变化趋势，证明了该传感器在100～450℃环境压力测量以及温度补偿方法的有效性。更多还原

【Abstract】 In this paper, a kind of high temperature pressure sensor based on fiber grating(FBG) is designed to meet the demand of pressure detection. Through analysis and comparison, suitable packaging materials and grating coating layers were selected, structural parameters were designed, and a three-dimensional model of the sensor packaging structure was established by finite element method(Ansys Workbench). The simulation of the model was realized by applying load. The simulation results verify the rationality of the design of the pressure transfer structure of the sensor. At the same time, based on the small deflection deformation theory of thin plate, the pressure sensitivity of the sensor is calculated, the temperature compensation method of the sensor is designed, the pressure and temperature calibration experiments are carried out, the pressure sensitivity of the sensor at different temperatures is analyzed, and the effectiveness of the sensor pressure measurement and temperature compensation method at 100～450 ℃ is proved.更多还原