electromechanical coupling 中文意思是什麼

electromechanical coupling 解釋
機電耦合
  • electromechanical : adj. 電機的;電機學的。
  • coupling : n. 聯結;交尾;【機械工程】管箍;聯結器;軸接;(火車的)車鉤,【電學】耦合。
  • l : L-beam, L-iron 不等邊角鋼。L,£= 〈拉丁語〉 libra (= pound)。
  1. The relations between piezoelectric characteristic such as piezoelectric constant, electromechanical coupling coefficient, mechanical quality factor, etc. and its components, granular diameter and manufacturing technology were studied

    研究壓電材料壓電常數、機電耦合系數、機械品質因數等特性與其組份、顆粒直徑及製作工藝過程之間的關系。
  2. So it can be used as both sensor component and driving component. pzt have better electromechanical coupling coefficient, piezoelectric constant, mechanical quality factor, curie temperature and stability, etc. so, pzt can be used widely in smart materials and structure

    與其它壓電陶瓷相比,鋯鈦酸壓電陶瓷( pzt )有較好的機電耦合系數、壓電常數、機械品質因數、居里溫度和穩定性等,因此, pzt能廣泛應用於智能材料結構中。
  3. The model from the input to the output of the piezoelectric traveling wave ultrasonic motor is established by synthetically using lagrange - maxwell equation, hertz elastic contact theory and coulomb friction theory, along with considering electromechanical coupling, influence of the interface force between the stator and rotor of the motor on the amplitude of the traveling wave inside the stator and dynamic contact friction friction force

    利用拉格朗日?麥克斯韋方程以及赫茲彈性接觸理論,庫侖摩擦理論,考慮機電耦合效應,定、轉子間界面力對彎曲行波的影響及其動態接觸摩擦力,建立了壓電行波超聲波馬達從輸入到輸出的機電耦聯系統的數學模型。
  4. Guide to dynamic measurements of piezoelectric ceramics with high electromechanical coupling

    高機電耦合壓電陶瓷的動態測量導則
  5. Guide to dynamic measurements of piezoelectric ceramics with high electromechanical coupling ; identical with iec 60483, edition 1976

    高機電耦合壓電陶瓷動態測量導則
  6. The electromechanical coupling field of stator vibration is analyzed by finite element method

    應用有限元法對電機定子振動過程中的機電耦合場進行分析,提取超聲頻段的振動模態。
  7. Electromechanical - coupling mechanism of self - synchronous vibrating system with three - motor - driving

    三電機激振自同步振動系統的機電耦合機理
  8. The giant magnetostrictive material is a new type of magneto - mechanical energy conversion material. it has giant magnetostrictive strain, high power density, high electromechanical coupling coefficient, high response speed and high force output

    超磁致伸縮材料是一種新型的磁?機械轉換材料,具有磁致伸縮系數大,能量密度高,機電耦合系數大,響應速度快等優點。
  9. Based on the electromechanical coupling characteristic of the multi - machine power system, the transitive closure is calculated depending on the synchronization torque coefficient matrix. then a proper threshold value is chosen to achieve the reasonable block decoupling of multi - machine power system. eigenvalues of block - decoupling subsystem are calculated respectively

    該方法根據多機電力系統的機電耦合特性,在多機系統同步力矩系數矩陣的基礎上,求取傳遞閉包,通過選擇適當的閾值水平,實現多機系統的合理分塊解耦;對各分塊解耦子系統分別計算特徵值,各子系統的特徵值的集合可以近似作為原多機系統的特徵值。
  10. When the radian of rigid line reaches extensive magnitude, the presence of interfacial rigid line inclusion can change not only attraction force on dislocation arisen by soft inhomogeneity into repulsion force, but also the interaction effects between screw dislocation and soft matrix. soft inhomogeneity can repel screw dislocation in piezoelectric material due to their intrinsic electromechanical coupling behavior

    當界面裂紋達到一定弧度時,可以將硬夾雜對位錯的排斥作用改變為吸引;當剛性線夾雜達到一定弧度時,不但可以將軟夾雜對位錯的吸引改變為排斥,也可以改變軟基體對位錯的作用性質。
  11. However, when both temperature gradient and compressive stress exist, the interaction between mechano - electric effect and seebeck effect is obvious. so methods are suggested to remove the coupling effect. similarly, electromechanical effect of cfrc can affect electrothermal effect and vice versa

    碳纖維混凝土的電力效應與電熱效應的耦合關系明顯,一方面,電力效應中包含有電熱效應的貢獻;另一方面,電力效應所引起的微結構變化導致碳纖維混凝土電阻的增加。
  12. The main work and result of this dissertation include the following aspects : ( 1 ) a new mechanical - electric model of ferro - electric materials is proposed to describe the complicated electromechanical coupling phenomena

    本文主要進行了以下研究工作:提出了新的鐵電材料力電耦合模型,以描述復雜的力電耦合效應。
  13. ( 2 ) a primary multi - scale method for the electromechanical coupling analysis of ceramics is developed and show good agreement between the calculated results and the related experiments

    初步提出了跨多尺度的鐵電陶瓷材料的力電耦合分析方法,得到與實驗結果相符合的鐵電陶瓷本構行為的計算結果。
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