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。
Now, however, aided with new materials and advanced sensors, a promising and eclectic array of alternative and often ingenious new forms of armour is emerging.
然而,现在辅以新材料和先进传感器,有前途的博取替代品之长并且有独创性的新装甲形态正在形成。
Sensors can analyse the surface of materials and, using the amount of resistance they show, work out the force to apply to an object.
传感器可以分析材料的表面,利用其会产生的阻力来决定自己所用力道。
Today, conveyer belts of mixed recycling materials can be swished through a series of smart sensors and sorters.
今天,垃圾被放在输送带上,并通过一系列的智能传感器进行分拣。
Materials with giant magnetoresistance effect have been extensively studied because of their potential application in magnetic recording and sensors.
由于巨磁电阻效应在磁记录设备和传感器的潜在应用,具有该效应的材料得到了广泛地研究。
Materials with giant magnetoresistance effect (GMR) have been extensively studied because of their potential applications in magnetic recording and sensors.
由于巨磁阻效应材料在磁记录设备和传感器的潜在应用,具有该效应的材料得到了广泛地研究。
The NASICON sensitive materials for ionics sensors were prepared by sol-gel process and the process was compared with the conventional ceramic process.
本文介绍应用溶凝胶工艺制备离子传感器的敏感材料NASICON,并与传统的陶瓷工艺作了比较。
And the strain sensitivity coefficients are studied in detail when sticking the mental tube packaged FBG sensors on two materials.
详细研究了两种基体材料上钢管封装的光纤光栅应变传感器的应变灵敏度系数。
This paper reviews the properties of thermo sensitive ferrite materials, the structure and working principle of thermal sensors of ferrite as well as their applications in various fields.
综述了温敏铁氧体材料的特点,各种磁性温敏传感器的结构和工作原理及其在不同领域中的应用。
Approaches for improving the temperature index of logging tools should include enhancing materials of tool shells, improving temperature tolerance of sensors, reasonably using flasks, and so on.
提高测井仪器耐温指标的途径应包括改进仪器外壳的材料、改进传感器的温度性能、合理使用保温瓶等方面。
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。
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。
There are used in macromolecular catalysis, adsorption and separation, sensors, micro-devices and light, and electromagnetic functional materials since the first synthesis in 1992.
自1992年首次合成以来,它在大分子催化、吸附和分离、传感器、微器件以及光、电磁等功能材料的研究和应用。
In this review, progress in the research and application of this kind of calixarene-containing polymer materials is presented in view of chemical sensors, chromatography and transport separation.
本文综述了含杯芳烃的高分子材料在化学传感器、谱及传输分离等方面的研究和应用。
This paper introduced the giant magnetoresistance materials and their applications to magnetoresistance sensors, read head for high density magnetic recording and magnetic random access memory.
介绍了巨磁电阻材料在高密度读出磁头、磁传感器、磁性随机存储器等领域的应用。
Abstract: Phthalocyanine and oxide semiconductor sensitive materials used for NO2 sensors in recent ten year are described.
文摘:描述了近十年来用作NO2气体传感器的酞菁类和氧化物半导体敏感材料。
Recently, porous silicon nitride materials have attracted much attention because of their potential applications in high temperature solid base catalyst, sensors and so on.
近年来,多孔氮化硅基材料因为在高温固体碱催化、传感器等领域的潜在应用,而受到广泛的关注。
And the performance of sensors is greatly affected by the sensitive materials.
敏感材料作为传感器的核心,很大程度上决定了传感器的各项性能。
Metal phosphonate materials are of increasing interest due to their potential applications in molecular recognition, selective sorption, sensors, and so forth.
由于在分子识别、传感器、催化等方面的潜在应用前景,近年来金属有机膦酸化学研究引起了人们广泛的关注。
Intelligent structure, an integration of sensors, actuators, microprocessors, and structural base materials together, is capable of recognizing, estimating and actuating.
智能结构是将传感器、驱动器和微处理控制系统与结构基体材料相融合,形成具有识别、分析、判断、动作等功能的一种结构。
The derivative has wide application prospect in the aspects of non-linear optical materials, molecular photoelectric devices, organic semiconductor materials, chemical sensors and the like.
在非线性光学材料、分子光电器件、有机半导材料以及化学传感器等方面都具有广阔的应用前景。
ZnO has a wide range of applications in the functional devices, catalysts, pigments, optical materials, cosmetics, nanostructure varistors, UV absorbers, gas sensors and industrial additives.
氧化锌在催化剂,色素,光学材料,美容制品,纳米压敏电阻,紫外吸收器,气体传感器,工业添加剂等功能设施上都有广泛的应用。
Both ZnO and CuO are applied on gas sensors, UV light detection, catalyst and electrode materials in batteries for their good physic properties, such as conductive, photoelectric and so on.
两者都具有良好的导电、光电和气敏等特性,被广泛应用在气敏传感器、紫外光探测仪、催化剂和电池领域的电极材料等方面。
Zinc Oxide (ZnO) is a multi-functional material, which has been widely applied in gas sensors, varistors, catalysts and anti-bacterial materials.
氧化锌是一种用途十分广泛的功能材料,已被用于气敏、压敏、催化、抗菌等重要领域。
Later, the giant magneto-impedance effect (GMI) was found in these materials. It supplies a new approach of exploiting magnetic sensors with high sensitivity, and has become a new research field.
而后来在该类材料中发现了巨磁阻抗(GMI)效应,为开发高灵敏度磁敏传感材料提供了新途径,更成为该领域一个新的研究热点。
Layered manganese oxide and its composite has been widely studied over the past decades, for example in catalysts, supercapacitors, magnetic materials, batteries, sensors.
近些年来,层状二氧化锰及其复合材料被广泛应用在催化,超级电容器,磁性材料,传感器,电池等领域。
Layered manganese oxide and its composite has been widely studied over the past decades, for example in catalysts, supercapacitors, magnetic materials, batteries, sensors.
近些年来,层状二氧化锰及其复合材料被广泛应用在催化,超级电容器,磁性材料,传感器,电池等领域。
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