界面結構 的英文怎麼說

中文拼音 [jièmiànjiēgòu]
界面結構 英文
interface structure
  • : 名詞1 (相交的地方; 劃分的界限) boundary 2 (一定的范圍) scope; extent 3 (按職業、工作或性別等...
  • : Ⅰ名詞1 (頭的前部; 臉) face 2 (物體的表面) surface; top 3 (外露的一層或正面) outside; the ri...
  • : 結動詞(長出果實或種子) bear (fruit); form (seed)
  • : Ⅰ動詞1 (構造; 組合) construct; form; compose 2 (結成) fabricate; make up 3 (建造; 架屋) bui...
  • 界面 : [物理化學] interface; boundary; limiting surface
  • 結構 : 1 (各組成部分的搭配形式) structure; composition; construction; formation; constitution; fabric;...
  1. Analysis of microstructures of laalo3 batio3 superlattice

    3超晶格薄膜界面結構分析
  2. The measuring of low - temperature specific heat is an important and effective method to study the structure of electronic states, the atomic vibration of lattice, phase transition and structure of grain boundary

    低溫比熱測量是研究固體的電子能態、原子點陣振動狀態、相變、界面結構等信息的重要的且很有效的手段之一。
  3. The hydration theory and the structure forming of hplc are analyzed through xrd, sem, edxa, and the analysis of pore structure, micro hardness. the model of the interface structure between lightweight aggregate and harden cement paste is divided into 4steps, which are penetrating, hydrating and hardening, diffusing of moisture and ion, forming of optimal interface structure, and the ideal structure model of lightweight aggregate is built

    採用xrd 、 sem 、 edxa 、孔分析與顯微硬度技術分析了高性能輕集料混凝土的水化硬化機理及形成過程,把輕集料與水泥石之間界面結構形成過程分為滲透、水化硬化、水分遷移與離子擴散、界面結構優化四個階段,提出了輕集料與水泥石之間的界面結構模型和高性能輕集料的理想模型。
  4. The questions the researcher concerned are which system will be chosen and how to obtain the good lithium ionic conductor materials, which is the basic departure of the paper. the addition of second phase in composite can change the interface structure and the conduction mechanism, improve the matrix conductivity and other function such as the sintering, crisping and so on, so the research of composites are an interesting field of the ionic conductors. the synthesis of lithium ionic conductor is often by solid state reaction, but this method needs high temperature and leads to the volatility of lithium which not only causes the drift of the compounds but gets the no well - distributed materials

    研究者所關注的問題是選擇新的體系進行研究,以期得到性能更好的鋰離子導體材料,這也正是本論文的基本出發點;復合離子導體中第二相的加入改善了基質的界面結構和導電機制,不僅可以提高基質材料的電導率,還可以在一定程度上改善材料的其它性能,如燒性能、脆性和機械強度等。因此復合材料的研究是離子導體一個有廣闊前景的發展方向;合成鋰離子導體,特別是成分復雜的體系以傳統的固相合成法為主,但這種方法需要較高的溫度,容易引起鋰的揮發,從而造成產物組成的偏移,而且不易得到顯微均勻的材料。
  5. This is a gui program built under matlab, which has achieved 3 - d o - lattice calculation, ncs ( near - coincidence sites ) model and o - line model

    程序實現了三維o點陣的計算, near - coincidencesites模型和o線模型,實現了可視化的界面結構的計算和模擬。
  6. The orientation relationships between cu and mgo are determined by means of electron diffraction patterns. the interface structures are analyzed according to high - resolution images of tem, csl and 0 - lattice theories and verified by simulation computation method

    通過電子衍射圖確定了cu與mgo之間的各種取向關系;根據高分辨像對界面結構進行了研究;通過計算模擬驗證了重位點陣和o -點陣理論。
  7. The planeness and integrality of the flier - plate were ensured effectively by exerting restrictive pressure, controlling heating and cooling rate, lowering welding temperature or reducing welding time as much as possible, etc. theoretical model of creating quasi - isentropic compression via 93w - ofc - tc4 - a1 - mb2 system flier - plate with graded wave impedance was established, and numerical simulation of the impact process was then carried out

    採取施加外部機械力、控制升降溫速率以及盡量降低焊接溫度或減少焊接時間(防止脆性金屬間化合物的過度增長)等措施,確保了焊接接頭的平整性和界面結構的完整性。建立起梯度飛片擊靶的理論模型,對93w - ofc - tc _ 4 - al - mb _ 2系波阻抗梯度飛片的擊靶過程進行了數值模擬計算。
  8. The thermodynamic and mechanical properties are calculated, it shows the melting point reduce in nizr alloy nano material. further we study the microstructure of them by the reverse monte carlo simulation, obtain the a series of information about bond angle - coordinate and so on

    Dft合實驗數據導出的嵌入原子勢用於納米nizr合金熱力學性質的分子動力學模擬,模擬果證實了納米合金材料由於界面結構原子分佈比較混亂,與常規合金相比體系嫡較大,熔點降低,得到與實驗一致的果。
  9. For emulsions, interfacial structures, droplet sizes and distribution, and droplet motion and coalescence could be observed and recorded in situ by an integration device including a microscope, a pickup camera, a video tape recorder, and a computer with a gathering image card and a programme

    利用光學顯微鏡攝像錄像計算機圖像採集、處理集成系統,可實現對乳狀液界面結構,液珠大小及其分佈,液珠運動和聚並的動態過程進行實時觀測、錄像、圖像採集和處理。
  10. The effects of different geometric interfaces on waves propagation in anisotropic rocks were simulated. three structures, including the corner structure, the straight structure and the multi - stripe structure, were discussed

    模擬了位於各向同性巖石中的爆炸點源產生的彈性波在具有規則幾何的巖石(角、平直界面結構以及多條紋)中的傳播。
  11. Then construct relation between crystal structure, interface structure and mechanical, magnetic properties of composites and predict and control the properties of material from the interface structure varying, on the basis of that developing the principle of design of interface structure

    界面結構變化的角度來預測和控制材料的性能,在此基礎上發展陶瓷材料的界面結構設計理論,並為最終研製出高性能的陶瓷-硬磁鐵氧體-功能一體化復合材料打下基礎。
  12. The second kind of ui structural component is the zone

    第二種用戶界面結構組件是區域。
  13. One ui structural component required on every web parts page is the

    有一個用戶界面結構組件是所有web部件頁必需的,這就是
  14. The ui structural components rely on personalization and provide the core structure and services needed by all web parts controls

    用戶界面結構組件依賴于個性化設置,並提供所有web部件控制項需要的核心和服務。
  15. Comparing with the reference concrete, the resistance of freezing - thawing cycles and chloride diffusivity in calcium - enriched fly ash concrete increase, because the pore structures and interface structure are optimized, so the durability of calcium - enriched fly ash concrete is perfect

    相對于基準混凝土,增鈣粉煤灰混凝土的抗凍性和抗氯離子滲透性能均有所提升,這主要是由於增鈣粉煤灰改善了混凝土的孔界面結構,從而使其具有更為優異的耐久性。
  16. 4. experimental data analysis and theoretical calculation indicated that the interface micro - structure of the solid - state displacement reaction between mo2c and si can be explained properly by the new theoretical model : rate - control - elements convergent diffusing model

    實驗數據分析和理論計算表明,本文提出的「速率控制元素非平行擴散模型」可以很好地解釋mo _ 2c - si固態置換反應的微觀界面結構
  17. In the experiments, two series of catalysts were synthesized by co - deposition and sol - gel methods each. the composition of both waterproof and gas diffusion layer and catalysis layer were optimized by the orthogonal test. meanwhile, quasi - steady cathode polarization curves, x - ray diffraction ( xrd ), scanning electronic microscope ( sem ) were used to analyst the relationship between the microstructure and the performance of air electrode

    實驗採用共沉澱法和溶膠凝膠法合成了兩類催化劑;對防水透氣層和催化層進行了正交試驗優化;同時,還採用測準穩態極化曲線, x射線衍射( xrd ) 、掃描電子顯微鏡( sem )等分析測試手段,對空氣擴散電極催化材料、空氣擴散電極界面結構與性能的關系等作了較深入的研究。
  18. In order to improve the properties of materials, one needs to understand the structural relationship between interface and matrix of the materials, such as interface atomic structure, misfit dislocation, chemical bond structure, stress field distribution, composition segregation etc. there are tremendous research works on the grain boundary and interface structures during last century and the sophisticated theory about grain boundary and interface, i. e. coincidence site lattice and 0 - lattice theories had been developed simultaneously

    眾所周知,材料的宏觀性質是由其微觀所決定的,因此,為了改善材料的宏觀性能我們有必要弄清楚材料的與基體之間的關系,如的原子、失配位錯、化學鍵合、應力場的分佈等等。在上世紀,人們已對晶和相界面結構進行了大量的研究,同時,相關的理論如「重位點陣」和「 o -點陣」理論也發展成熟。
  19. The kinetic monte carlo method based on a solid - on - solid model has been introduced to simulate the insb heteroepitaxial growth. furthermore, transmission electron microscopy ( tem ) and hall measurements have been performed to study the interface structure and electrical properties of insb epilayers

    在sos ( solid - on - solid )模型基礎上採用動力學蒙特卡羅( kmc )方法模擬了insb薄膜的外延生長過程,同時採用透射電鏡( tem )與霍爾( hall )測試方法研究了薄膜的界面結構與電學性能。
  20. However the study of metal - oxide hetero - interface is relatively less because the properties of metals and oxides usually differ extremely from each other. contrary to metals, the oxides are usually very brittle, elastically stiffer, insulating and exhibit less thermal expansion and their crystal lattice constants are different from metals. moreover, the preparation of specimen of metal - oxide interface is very difficult, the observation of searching a suitable interface under the electron microscope is also a tedious work

    然而,對金屬-氧化物界面結構的研究卻相對少一些,這主要是由於金屬與氧化物之間的性質相差非常大,與金屬相反,氧化物通常很脆、絕熱、熱膨脹系數小,晶格常數也不同於金屬,有的甚至相差很大,而且,制備金屬-氧化物比較困難,在電子顯微鏡下全地觀察一個合適的也是一項令人乏味的工作。
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