磁致伸縮應變 的英文怎麼說
中文拼音 [cízhìshēnsuōyīngbiàn]
磁致伸縮應變
英文
magnetostrictive strain-
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?種新型的功能材料,具有磁致伸縮應變大、機磁耦合系數高、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材料為基礎,以基於該類材料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。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
超磁致伸縮材料( tb0 . 27dy0 . 73fe1 . 93 )是一種新型的功能材料,磁致伸縮應變大、響應速度快、能量密度高等是該類材料的顯著特點,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。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材料,磁致伸縮應變大、響應速度快、能量密度高等是該類材料的顯著特點,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。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
超磁致伸縮材料是( giantmagnetostrictivematerial , gmm )一種新型的稀土功能材料,具有磁致伸縮應變大、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。Theoretical calculation to determine the influence of the stress on the strain of the giant magnetostrictive thin films
應力對非晶超磁致伸縮薄膜形變影響的理論計算The total energy expression of the sample is build through analyzing its energy composition. according to the principle of the minimum energy, using the connection between stress and strain and the connection between magnetostriction and magnetism strain, an expression for the mean field parameter is derived
通過分析所研究試樣的能量組成,寫出了試樣總能量表達式;根據能量最小原理,利用應力、應變之間的關系和磁致伸縮系數、磁應變之間的關系,得到了分子場參數表達式。Meanwhile, this article brings forward a control method on account of magnetic field and designs a high - precision control circuit based on dsp. also, this system detects magnetic field with hall ' s sensor and controls the closed loop system, then controls the output displacement. moreover, this article designs
同時,本系統採用基於磁感應強度的閉環控制系統,設計了基於dsp微處理器的高精度控制電路,採用霍爾傳感器對磁感應強度進行監測,進行閉環控制,以通過對磁感應強度的監測來實現對輸出位移的控制,此外,本文還設計了溫度檢測和反饋控制系統,保證了超磁致伸縮棒工作在恆溫環境,減小了附加熱變形對工作精度的影響。分享友人