Piezoelectric sensors are mainly applied in the acceleration, the pressure, and the power of measurement.
压电变送器主要应用在加速度、压力和力等的测量中。
The piezoelectric sensors can also be used to measure the internal combustion engine measure pressure and vacuum measurement.
压电式变送器也可以用来测量发动机内部燃烧压力的测量与真空度的测量。
The actual situation are not like that, so that will decide the piezoelectric sensors that can measure the dynamic stress only.
实际的情况不是这样的,所以这决定了压电变送器只能够测量动态的应力。
In this paper an active vibration control system of 2d flexible plate is presented by using piezoelectric sensors and actuators.
本文采用压电陶瓷作为传感器和执行器,对二维柔性板的振动抑制进行了实验研究。
It was shown that piezoelectric sensors could be widely and effectively used in researches and practices of geotechnical engineering.
研究表明,压电陶瓷传感器在岩土力学研究和工程实践中有广阔的应用前景。
Piezoelectric sensors have been widely applied in geotechnical engineering, especially in characterizing soils through measurement of wave velocities.
压电陶瓷传感器在岩土工程中有很多应用,尤其是通过测量波速来确定土的性质方面。
Piezoelectric sensors and actuators are adhered to the base material directly, and compose the active vibration control system along with the single chip.
压电传感器和驱动器直接粘贴在母体材料上,和单片机控制系统一起构成了压电式主动减振智能结构。
The fundamental principle of the piezoelectric sensors and the analytical methods based on mass, viscosity, electric conductivity in solution are briefly introduced.
本文简要介绍了压电晶体传感器的基本原理,以及基于质量、粘度、电导率变化的溶液分析法。
Recently, simple, inexpensive, real time and speediness piezoelectric sensors have gained popularity over more complicated traditional analytical methods and techniques.
压电传感器分析技术相对于传统复杂的分析方法而言,具有操作简单、成本低廉、实时快捷等优点。
Piezoelectric sensors and actuators may be considered as multilayer laminated composites consisting of alternating layers of piezoelectric and non-piezoelectric materials.
压电传感器和致动器都可以看成是一种复合材料层合板结构,由压电材料层和非压电(弹性)材料层交替铺设而成。
Stoner hopes that future sensors can be equipped with batteries , solar panels or even piezoelectric generators to generate the power necessary to run the sensors and transmitters.
他希望未来传感器可以装上电池,太阳能电池板甚至压电发电机,以致获得传感器与发射机运行所必须的电力。
It does this by fitting small piezoelectric acoustic sensors to parts of the structure to detect the particular frequency of noise caused by a crack in aircraft-grade aluminium.
把小型压电声传感器安装到这种构造部位上,检测由航空级铝材裂纹所致的特定频率的噪音,靠这样就能监测飞机裂纹。
For decades, scientists have pumped electricity into piezoelectric materials for use in environmental sensors, speakers and other devices.
几十年以来,科学家们已经能够将电能灌入压电材料,以用于环境传感器、扬声器与其他设备。
Piezoelectric polymers are considered as the ideal materials for robot sensors.
压电高聚物被认为是机器人用传感器的理想材料。
The results measured by the PVDF sensors are in concordance with the theoretical results and the new piezoelectric sensor strategy is available.
同时PVDF传感器测量的结果与理论相符,说明这种新型PVDF压电传感器的设计是可行的。
The resonance frequency shifts of piezoelectric quartz crystal sensors in contact with the liquid are influenced mainly by liquid properties and mass loading on the quartz crystal surface.
液相环境下振荡的压电石英晶体传感器的谐振频率变化主要受液体性质和表面质量负载的影响。
Applications of piezoelectric angular rate sensors to systems of remote control, remote measurement and remote sensing are briefly described.
本文简要介绍压电角速率传感器在遥控、遥测、遥感系统中的应用情况。
The compensation technology for the piezoelectric fluidic angular sensors is discussed, including the principle and program of temperature compensation and linearity compensation.
介绍了压电射流角速度传感器的软件补偿技术,给出了压电射流角速度传感器的温度补偿和线性补偿的原理和程序。
The performance and application of intelligent material systems and structures invlved piezoelectric materials as sensors, actuators and piezoelectric fiber composites are reviewed.
综述了压电材料和含有压电材料作为驱动器、传感器以及压电纤维复合材料等不同智能材料系统和结构的性能及应用特征。
Vibration parameters are measured traditionally by piezoelectric acceleration sensors.
传统测量振动参数多采用压电式加速度传感器。
OBJECTIVE To discuss a highly effective method to immobilize probe on the surfaces of piezoelectric DNA sensors.
目的探讨一种高效的压电石英晶体DNA传感器固定的方法。
These sensors are commonly manufactured out of piezoelectric materials such as quartz.
这类传感器通常由石英之类的压电材料制成。
The array consisted of 8 piezoelectric crystal sensors, each coated with an adsorptive material with unselective, but different response characteristics.
该阵列由八个压电晶体传感器组成,每个传感器涂以具有广谱响应性能的不同吸附活性材料。
The adaptive beam is composed of piezoelectric ceramic sensors, actuators, and a flexible beam.
由传感器、作动器与梁主体结构组成梁式自适应结构。
The adaptive beam is composed of piezoelectric ceramic sensors, actuators, and a flexible beam.
由传感器、作动器与梁主体结构组成梁式自适应结构。
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