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磁感应强度控制
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  “磁感应强度控制”译为未确定词的双语例句
     The Elastic Characteristic of the Giant Magnetostrictive Materials and the Realization of its Control Principle Based on Magnetic Induction
     超磁致伸缩材料的伸缩特性及其磁感应强度控制原理及方法的实现
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  相似匹配句对
     Strength Analysis of Control Network
     控制网的强度分析
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     that control effectiveness is obvious when magnetic flux density is more than 0. 2T;
     当磁感应强度B≥0.2T时,控制效果明显;
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     MEASUREMENT OF MAGNETIC INDUCTION BY ELECTROCARDIOGRAPH
     用心电图机测定磁感应强度
短句来源
     Magnetic Induction on the Plane of a Circular Current
     圆电流平面上的磁感应强度
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     Accelerated Determination of the Control Strength of Concrete
     混凝土控制强度的快速确定
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Giant magnetostrictive materials (GMM) is a new type of functional materials which has been developed in recent years. In this paper, based on the knowledge of the magnetostriction generating mechanism, we constructed the control model of GMM, proposed the theory in which the magnetic induction was adopted as the control variable and developed the concrete realization method in actuator, compared and analyzed the results of two control techniques in which current intensity and magnetic induction are respectively...

Giant magnetostrictive materials (GMM) is a new type of functional materials which has been developed in recent years. In this paper, based on the knowledge of the magnetostriction generating mechanism, we constructed the control model of GMM, proposed the theory in which the magnetic induction was adopted as the control variable and developed the concrete realization method in actuator, compared and analyzed the results of two control techniques in which current intensity and magnetic induction are respectively taken as control variables, obtained the satisfactory conclusion of how to improve the linearity and control precision of microdisplacement actuator and reduce the hysteresis based on the control method of magnetic induction.

超磁致伸缩材料 (GiantMagnetostrictiveMaterial,简称GMM )是近年来发展起来的一种新型功能材料。在分析了磁致伸缩现象产生的唯象机理的基础上 ,建立了超磁致伸缩材料的控制模型 ,提出采用磁感应强度作为控制量的原理及其在执行器中的具体实现方法 ,并对采用电流强度 (磁场强度 )和磁感应强度作为控制量的两种控制方法进行了对比分析和实验研究 ,得出了基于磁感应强度的控制方法可提高超磁致伸缩微位移执行器的线性度和控制精度并减小滞回的结论。

As a new type and high performance functional materials,giant magnetostrictive materials has shown good application prospects in many fields.But its further application is restricted because of its drawbacks such as hysteresis and non-linearity.From the analysis of produce mechanism of giant magnetostrictive phenomenon,a control method is proposed based on flux density.The analysis and experiment results show that the hysteresis of giant magnetostrictive...

As a new type and high performance functional materials,giant magnetostrictive materials has shown good application prospects in many fields.But its further application is restricted because of its drawbacks such as hysteresis and non-linearity.From the analysis of produce mechanism of giant magnetostrictive phenomenon,a control method is proposed based on flux density.The analysis and experiment results show that the hysteresis of giant magnetostrictive materials will decrease and the control precision of it will be improved if adopting the control method based on flux density.

超磁致伸缩材料作为一种新型、高效的功能材料在许多领域显示出良好的应用前景 ,但是由于其存在滞回、非线性等不足 ,限制了它的进一步应用。文章在分析超磁致伸缩现象产生机理的基础上 ,给出了其基于磁感应强度的控制模型 ,并通过分析和实验研究得出 :采用磁感应强度的控制方法可减小超磁致伸缩材料滞回 ,提高其控制精度的结论

Giant magnetostrictive materials (GMM) is a new type of functional materials which is developed in recent years.In this paper,the driving principles of GMM was analyzed and two kinds of driving structure of GMM were given.Then,two control methods were contrastively analyzed and experimentalized,whose control variables were current and flux density respectively. A conclusion can be obtained:the linearity and control precision of microdisplacement actuator based on GMM will be improved and the hysteresis will...

Giant magnetostrictive materials (GMM) is a new type of functional materials which is developed in recent years.In this paper,the driving principles of GMM was analyzed and two kinds of driving structure of GMM were given.Then,two control methods were contrastively analyzed and experimentalized,whose control variables were current and flux density respectively. A conclusion can be obtained:the linearity and control precision of microdisplacement actuator based on GMM will be improved and the hysteresis will decrease if adopting the control method based on flux density.

超磁致伸缩材料是近年来发展起来的一种新型功能材料。在分析了超磁致伸缩材料的驱动原理 ,并给出了它的两种驱动结构形式的基础上 ,对采用电流和磁感应强度做为控制量的两种控制方法进行了对比分析和实验研究 ,得出了基于磁感应强度的控制方法可提高超磁致伸缩微位移执行器的线性度和控制精度、减小迟滞的结论。

 
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