電致伸縮陶瓷 的英文怎麼說
中文拼音 [diànzhìshēnsuōtáocí]
電致伸縮陶瓷
英文
electrostriction ceramics- 電 : Ⅰ名詞1 (有電荷存在和電荷變化的現象) electricity 2 (電報) telegram; cable Ⅱ動詞1 (觸電) give...
- 致 : 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 ...
- 伸 : Ⅰ動詞(展開) stretch; extend Ⅱ名詞(姓氏) a surname
- 縮 : 縮構詞成分。
- 陶 : 陶名詞1. (窯) kiln2. (人名用字) a word used in person's name
- 瓷 : 名詞(用高嶺土、長石、石英等燒製成的材料) porcelain; china
- 陶瓷 : pottery and porcelain; ceramics陶瓷地磚 floor tile; 陶瓷電子管 ceramic tube; 陶瓷電阻器 ceramic r...
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Relaxor ferroelectric single crystals, such as pb ( mg1 / 3nb2 / 3 ) - pbtio3 ( abbreviated as pmnt ) or pb ( zn1 / 3nb2 / 3 ) - pbtio3 ( abbreviated as pznt ), have been reported to exhibit an extremely large piezoelectric constant and excellent electrostrictive properties. such excellent performance makes it fully substitute the traditional piezoelectric ceramics and points to a revolution in ultrasonic transducers, actuators and micro - positioners, making relaxor - based piezocrystals the most promising materials for a broad range of advanced applications. however, it is difficult to grow the high quality single crystals because of the lack of valid thermodynamic data
新型弛豫鐵電單晶鈮鎂酸鉛(簡稱pmnt )或鈮鋅酸鉛(簡稱pznt )是一類新興的功能材料,其在準同型相界附近具有優于傳統壓電陶瓷的較高的壓電常數和電致伸縮系數,可完全代替傳統的壓電陶瓷作為超聲換能器、致動器、微位移器等,使其成為鐵電領域的研究熱點,但如何生長出滿足應用要求的單晶材料卻一直是一個困擾的問題。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
磁致伸縮是一種磁?機械耦合現象,以tb - dy - fe為代表的稀土超磁致伸縮材料,其伸縮量為普通壓電陶瓷的30 - 50倍,響應時間低於10 . 6秒,是理想的位移致動材料。The effect of k doping on the ordered micro - region, dielectric and electrostrictive properties of 0. 80pb mg1 3nb2 3 o3 - 0. 20pbtio3 ceramics
基陶瓷有序微區及介電和電致伸縮性能的影響Hence, the micro - robotic and micro - assembly technology develop quickly. ( 1 ) this paper discussed the properties of piezoelectric ceramic, shape memory alloy and magenetostrictive material droved system
論文主要研究工作如下:本文對壓電陶瓷、形狀記憶合金和超磁致伸縮材料的原理及其微驅動特性做了較深入的探討。分享友人