磁致伸縮材料 的英文怎麼說

中文拼音 [zhìshēnsuōcáiliào]
磁致伸縮材料 英文
gmm
  • : 名詞1. [物理學] (磁性; 能吸引鐵、鎳等的性質) magnetism 2. (瓷) porcelain; china
  • : Ⅰ動詞1 (給與;向對方表示禮節、情意等) deliver; send; extend 2 (集中於某個方面) devote (one s ...
  • : Ⅰ動詞(展開) stretch; extend Ⅱ名詞(姓氏) a surname
  • : 縮構詞成分。
  • : 名詞1 (木料) timber 2 (泛指可以直接製成成品的東西; 材料) material 3 (供寫作或參考的資料) ma...
  • : 名詞1 (材料; 原料) material; stuff 2 (喂牲口用的穀物) feed; fodder 3 (料器) glassware 4 (...
  • 材料 : 1. (原料) material 2. (資料) data; material 3. (適于做某種事的人才) makings; stuff
  1. Terbium - dysprosium - iron giant magnetostrictive material

    鋱鏑鐵大磁致伸縮材料
  2. The control system, machinery and magnetic structure of giant magnetostrictive inchworm motor ( gmim ) have been designed based on the controlling theory, characteristic of giant magnetostrictive material and performance index of the subject. the mathematic model of the inchworm motor has been founded and the simulation of characteristic has been carried out

    根據自動控制原理,結合超磁致伸縮材料特性,按照課題給定的性能指標,對超爬行電機的機械結構、路結構和控制系統進行了初步設計;建立了整個電機系統的數學建模,並對系統特性進行了模擬分析。
  3. Analysis on dynamic properties of magnetostriction actuator

    稀土超磁致伸縮材料動器的動力學特性分析
  4. As a new type of functional material which has been developed in recent years, rare earth - iron giant magnetostrictive materials has many advantages, such as large magnetostriction strain, high coupling coefficient, quick response, high energy density and so on, which make it have good application future in fields of precision driving and microdisplacement based on the new type of functional material, this paper uses new principles and approaches to study this kind of microdisplacement actuator and its precision driving system

    稀土鐵系超磁致伸縮材料就是近年來發展起來的?種新型的功能,具有應變大、機耦合系數高、響應速度快、能量密度高等優點,已在精密驅動及微位移執行器等領域顯示出良好的應用前景。本論文以這種新型的功能為基礎,以基於該類的微位移執行器及其精密驅動系統為研究對象,並採用一些新的原理和方法,為新型、高性能微位移執行器及其精密驅動系統的研究提供一個新的途徑與思路。
  5. In chapter 1, the magnetostrictive mechanism of the giant magnetostrictive materials and the main features of the materials are introduced briefly, and the research background including the materials applications in abroad and home is given. furthermore, the problems existing in the update applications are pointed out. especially the various applications of the magnetostrictive material in fluid power - transmission and control are also introduced

    本文從超磁致伸縮材料的主要特點及其應用概況出發,以國產的超磁致伸縮材料為基礎,進行了超電?機械轉換器的結構及在流體控制元件中應用的研究,探討了超電?機械轉換器常用的熱補償方法,並結合流體控制元件的具體特點,採用熱補償管進行熱補償。
  6. According to magnetic medium following the theories, such as ferromagnetics, electromagnetic field, electrodynamics and so on, and linking the characteristics of driving of giant magnetostrictive materials, a control model and driving approach, which one to one correspondence with magnetostriction, are founded. the theory analysis and experimental study demonstrate that the control accuracy of giant magnetostrictive materials can be effectively improved, if using this control model and control approach of giant magnetostriction materials on account of flux density

    通過理論分析和實驗研究表明:這種基於感應強度的超磁致伸縮材料的控制模型和控制方法,可有效地提高超磁致伸縮材料的控制精度;研製了具有驅動場和微位移感知功能的場與位移感知型超微位移執行器,並提出了適用於此種執行器的設計理論和方法。
  7. In this work, the preparation and properties of magnetostrictive material and mnbial thin film are studied

    本文對含輕稀土磁致伸縮材料及mnbial薄膜的制備及性能進行了研究。
  8. According to the effective field expression which has been derived in former, the phenomenon that the tangential component of magnetic leakage field has maximum value and the normal component of magnetic leakage field acquires zero value at the stress concentration zone of positive magnetostriction ferromagnetism materials under the application of tensile stress and negative magnetostriction ferromagnetism materials under the application of compressive stress is explained theoretically through analyzing and discussing

    根據所得到的地場中受力鐵有效場表達式,通過分析討論,解釋了受拉力作用的正和受壓力作用的負磁致伸縮材料在應力集中處漏場切向分量出現最大值、同時法向分量為零值的現象。
  9. 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

    磁致伸縮材料是一種新型的?機械轉換,具有系數大,能量密度高,機電耦合系數大,響應速度快等優點。
  10. Meanwhile, the characteristics of giant magnetostrictive materials, such as lengthen and shorten, magnetic - mechanical coupling, pressure stress, temperature and so on, are a little more systematically analyzed and elaborated, and corresponding curves and representations are given

    同時,較為系統地對超磁致伸縮材料、機耦合、動態、壓應力、溫度等特性進行了分析與闡述,給出其相應的曲線及表達式。
  11. Giant magnetostrictive material ( tb0. 27dy0. 73fe1. 93 ) is a new kind of intelligent material. it has the following virtues : good magnetic retractility, rapid response, and high energy density, so it is widely applied in nanometer actuator, sensor and many other domains

    磁致伸縮材料( tb0 . 27dy0 . 73fe1 . 93 )是一種新型的功能應變大、響應速度快、能量密度高等是該類的顯著特點,因其優異的性能、被廣泛應用於納米驅動器和傳感器等領域。
  12. It has the following virtues : good magnetic retractility, rapid response, and high energy density, so it interests scholars all over the world. based on the characteristics of the giant magnetostrictive material and the requirements of the industrial devices / systems, this article tends a more precise, adapting to active vibration control giant magnetostrictive actuator ( gma )

    稀土超磁致伸縮材料是一種新型的功能應變大、響應速度快、能量密度高等是該類的顯著特點,因其優異的性能、良好的應用前景,而得到世界各國學者的關注。
  13. The giant magnetostrictive material is a new functional material, which has high magnetostriction, which has high response velocity, high energy density, big output force. because of the choiceness properties of the gmm, many researchers of the world countries now have taken part in studying it. also its corresponding theory and applications studies are being researched

    磁致伸縮材料是( giantmagnetostrictivematerial , gmm )一種新型的稀土功能,具有應變大、響應速度快、能量密度高、輸出力大等顯著的特點,以其優異的性能和良好的應用前景而得到了世界各國研究者的廣泛關注,其相應的理論及應用研究正日益廣泛,相關的各種應用器件正被世界各地的研究者開發出來。
  14. The static and dynamic properties, such as magnetostriction, hysteresis loop, dynamic strain coefficient and magnetomechanical coupling coefficient were measured with the magnetic measurement system of multiple parameters

    測試了磁致伸縮材料靜態特性和動態特性,包括滯回線、動態系數、柔順系數、機械耦合系數等。
  15. Recently bulk tb - dy - fe single crystals have been obtained by magnetic levitation cold crucible without contamination in wuhan university of technology. these excellent single crystals, possessing a large displacement output under low magnetic field, build a foundation for the fabrication of the high precision micro - displacement actuators. the purpose of this research is to manufacture an advanced micro - displacement actuator with this high performance single crystal as the driving unit

    常規的型微位移動器大多採用多晶或具有孿晶結構的磁致伸縮材料作為驅動單元,由於晶界和孿晶界對疇壁的移動具有阻礙作用,其低場下的位移輸出較小,調控精度受到很大影響。
  16. On structure design aspect, a closed magnetic route around the gmm is formed, so magnetic symmetry and intension of gmm are improving ; on analysis of electricmagetic characteristics aspect, ansys software is applied to analyze the gma to optimize its structure ; on ampliflcatory power system aspect, based on the characteristic of driving power of gma and the principle of constant current source, a power amplifier using power mosfet is designed ; on testing equipments aspect, measure bracket is designed including transom, stand beam, screw, pedestal ; on cooling system aspect, a constant temperature cooling system is designed theorily

    本文根據稀土超磁致伸縮材料的特點及其在工業元件、系統中的應用要求,在以往微位移動器的基礎上,克服他們的不足,經過各方面的完善,設計出一種精確的、適合於主動控制的稀土超位移動器,主要在稀土超動器結構設計、電特性分析、功放系統以及最後的實驗測試系統方面進行了設計,同時對溫度冷卻系統也做了一些理論設計。
  17. The theory foundation is settled for highly effectively and rationally using giant magnetostrictive material. the driving principle of giant magnetostrictive material is studied and analyzed, and the study is centered on the principle of compound driving, which is used in this paper

    為高效、合理地使用超磁致伸縮材料奠定了理論基礎;研究、分析了超磁致伸縮材料的驅動原理,重點對本論文所採用的組合式驅動原理進行了研究。
  18. A new machining principle for non - cylinder pin hole of piston was presented by using giant magnetostrictive material ( gmm ) to control the deformation of tool rod

    摘要利用超磁致伸縮材料的特性控制刀桿彎曲變形,提出了一種加工活塞異形銷孔的新方法。
  19. In general, polycrystal or twin magnetostrictive materials are used as the drive unit in micro - displacement actuator. however, the displacement output of the actuator under low magnetic field is small and its precision is limited, as a result of motion restriction of magnetic domain walls by grain boundaries in polycrystal or twin magnetostrictve materials

    是一種?機械耦合現象,以tb - dy - fe為代表的稀土超磁致伸縮材料,其量為普通壓電陶瓷的30 - 50倍,響應時間低於10 . 6秒,是理想的位移
  20. Based on the characteristics of the giant magnetostrictive material, this article designs giant magnetostrictive micro - displacement actuator, and primary research contents are as follows : establishing drive magnetic field structure, designing closed loop control system, constant current source, temperature control system, magnetic field perceptual system and doing experiment testing

    本文根據其工作特性設計了一種基於超磁致伸縮材料的微位移驅動器,主要研究內容包括:建立閉環控制系統、設計驅動場結構、恆流源驅動電路、溫控系統和場感知系統以及系統性能的實驗測試。
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