1) the sense of stress
压力感
1.
Objective:To explore the relationships among attachment working models, the sense of stress, coping strategies and negative moods.
目的:探讨大学生依恋模式与生活压力感、应对方式和负性情绪的关系。
2) pressure sensitivity
压力敏感
1.
It is found that the skin factor of formation pressure sensitivity depends on the pressure sensitive coefficient, differential pressure of well testing, etc, which means that the res.
对于压力敏感储层,当地层压力降低时,储层渗透率显著降低,其作用相当于固体颗粒或流体损害储层,降低储层渗透率,产生一储层压力敏感表皮系数。
2.
One of main damage factors in low-permeability sandstone oil pool is pressure sensitivity, degree of which is dependent on rock s features.
压力敏感性对低渗透砂岩气藏的损害程度主要由储集层岩石本身的特性所决定。
3) stress perception
压力感受
1.
Objective The purpose of this study was to investigate the level of diabetes-specific stress perception,and the relationship among objective glycaemic control,education and diabetes-specific stress perception of Chinese type 2 diabetes patients.
目的:评估2型糖尿病患者压力感受水平。
4) pressure sensing
压力传感
1.
The fiber Bragg grating temperature and pressure sensing system applied in oil pipeline;
应用在油气管线的光纤光栅温度压力传感系统
2.
The experimental results show that the pressure sensing coefficients of its two polarization directions are 0.
对熊猫型保偏光纤光栅的传感特性进行了深入的实验研究,采用温箱和压力罐分别进行了温度和压力传感特性的实验研究。
3.
The pressure sensing mechanism of fiber Bragg grating has been researched.
对光纤Bragg光栅的压力传感机理进行了理论研究。
5) pressure sensor
压力传感
1.
The application of optical fiber grating pressure sensor on train real-time tracing system;
光纤光栅压力传感器在列车实时追踪系统中的应用
2.
Temperature compensation for FBG pressure sensor based on artificial neural network
基于神经网络的光纤光栅压力传感器的温度补偿
3.
To increase the selectivity of fiber Bragg gratings pressure sensor,a method is proposed by applying the back propagation(BP) neural network which can restrain the temperature disturbance to pressure sensor.
应用BP神经网络技术抑制温度对光纤光栅压力传感器的干扰,从而提高了压力传感器的选择性。
补充资料:压力感受器
压力感受器
存在于颈动脉窦和主动脉弓血管壁外膜下的感觉神经末梢。其末端膨大呈卵圆形,按其所在部位,分别称为颈动脉窦压力感受器和主动脉弓压力感受器。对动脉血压变化具有敏感性。动脉血压愈高,压力感受器传入冲动的频率愈高。当其冲动到达心血管中枢后,一则使心迷走中枢的活动加强,再则使心交感紧张中枢和交感缩血管紧张中枢减弱。通过这些中枢的活动变化,使心脏的活动不致过强,血管外周阻力不致过高,从而保持动脉血压在较低的水平。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条