物態方程 的英文怎麼說

中文拼音 [tàifāngchéng]
物態方程 英文
equation of state
  • : 名詞1 (東西) thing; matter; object 2 (指自己以外的人或與己相對的環境) other people; the outsi...
  • : 名詞1. (形狀; 狀態) form; condition; appearance 2. [物理學] (物質結構的狀態或階段) state 3. [語言學] (一種語法范疇) voice
  • : Ⅰ名詞1 (方形; 方體) square 2 [數學] (乘方) involution; power 3 (方向) direction 4 (方面) ...
  • : 名詞1 (規章; 法式) rule; regulation 2 (進度; 程序) order; procedure 3 (路途; 一段路) journe...
  1. Shock wave compression technique has play an important role in the understanding of the material composition thermodynamic state and physical properties of the earth ' s ulterior. in this article, the stabling of high - pressure phase of one of the main candidate materials of the earth ' s lower mantle ? enstatite ( mg0. 92, fe0. 08 ) sio3 were investigated through the experimented measurement of hugoniot equation of state, and together with thermodynamic calculation and analysis

    本學位論文以沖擊壓縮技術為手段,從測量其hugoniot物態方程入手,結合高壓理和熱力學理論分析,較深入地研究了下地幔中的一種主要候選組分頑火輝石( mg _ ( 0 . 92 ) , fe _ ( 0 . 08 ) ) sio _ 3在與下地幔大致相當的溫度壓力條件下的相-鈣鈦礦型結構的相穩定性。
  2. The calculating method of equation - of - state for inert gases

    單原子氣體的物態方程計算
  3. Following this, a new phenomenological eos along isotherms that may be used at high pressures for nacl - type and cscl - type alkali halides, metals, periclase ( mgo ), rare - gas xenon solid, and so on, is presented, by making use of the definition of short - distance repulsive force constant ( a ) and the phenomenological function a ( r )

    在此基礎上,從短排斥力常數a的定義,及其與原子間距r唯象函數出發,提出一個可應用於相對高壓下的新的等溫固體物態方程,並對它的有效性和應用性進行了研究與討論;本文還在實驗數據的基礎上,運用了等壓過中anderson - gr (
  4. The equation of state ( eos ) of metals can be described commendably by the so - called trinomial eos which have " the cold part ", the thermal part contributing by crystal ( or atoms ) and the thermal part contributing by electrons

    沖擊壓縮區的金屬通常可以由所謂的三項式物態方程描述,即將物態方程分成相對獨立的「冷貢獻」 、 「晶格(原子實)熱貢獻」和「電子熱貢獻」三部分。
  5. In this paper, the basic theory and researchful methods for eos ( equations of state ) of solid, liquid and gas are stated in detail. eos of mixture is also generalized more systematically. two models, equivalent material model and mixing phase model, which can describe solid - liquid transition of mixture, are presented too

    本文詳細闡述了固、液和氣物態方程的基本理論和研究法,對混合物態方程進行了較為系統的研究,提出了可用於描述混合固液相變的兩個模型:即混和相模型和等效質模型,並以304鋼為例,對這兩種模型進行了驗證。
  6. Because of the extensive applications of condensed matter in various fields, the investigations on the equation of state of compressed solids are not only necessary in many basic sciences and interdisciplinary areas, e. g. geophysics, planetary science, astrophysics, physics of condensed matter, atomic and molecular physics, thermodynamics, statistical physics, material science etc., but also of important utilized values in the explosive mechanics, energy engineering, aviation technicality and so on applied sciences

    由於固體材料在實際生活、生產中具有的廣泛應用性,這就決定了對固體材料物態方程的研究不僅在熱力學、統計理學、凝聚理、原子與分子理、地球理、天體理、化學理等基礎學科中是不可缺少的,而且在材料科學、能源工、爆炸力學、武器理、宇航技術等應用學科中也具有重要的應用價值。
  7. The procedure to modify the sss code is as follow : at first the hom eos ( equation of state ) is replaced by the sesame eos, secondly the magnetic force is added to the momentum equation, the ohmic heating rate is added to the energy conservation equation

    對sss序改造過大致如下:首先以sesame數據庫物態方程替換sss序原有的物態方程;其次在動量守恆中加上洛侖茲力項,在能量守恆中加上單位質量焦耳加熱項,通過麥克斯韋推導出磁擴散
  8. Equation of state and partial excess chemical potential for binary hardsphere system

    二元硬球系統的物態方程及偏超額化學勢
  9. In chapter 4, the physics foundation of the " wj eos " has been studied

    本文還研究另一種描述熱貢獻的理論模型? wj物態方程
  10. Equation of state

    物態方程
  11. Equation of states ( eos ) under high - temperature and high - pressure is important to study for solids physics

    高溫高壓下物態方程的研究在實踐和理論中都具有重要的意義。
  12. Narrowly speaking, eos is the relationship between the pressure, the volume and temperature of substance system in thermodynamic equilibrium

    從狹義上來講,物態方程是描述處于熱力學平衡質系統中壓強、溫度、體積之間的函數關系。
  13. In view of the applied condition, the equations of state are assorted as follows : isothermal eos, isobaric eos, and high - temperature eos

    從適用的宏觀條件、范圍上來分,固體物態方程可分為三大類:等溫,等壓,高溫(相對德拜溫度) 。
  14. As shocked porous iron has a higher temperature than solid iron, we can investigate eos of iron at higher temperatures by shock compression of porous iron samples

    本文利用多孔鐵在沖擊壓縮過中比密實鐵具有更高溫升的特性,對多孔鐵的物態方程進行了比較深入的研究。
  15. In a narrow sense of the word, equation of state ( eos ) is the relationship of pressure, volume ( or density ) and temperature ( p - v - t ) for substance system in thermodynamic equilibrium

    從狹義上講,物態方程是描述處于熱力學平衡質系統中壓強、溫度、體積或密度之間的函數關系( p - v - t ) 。
  16. We also compare the deduced new eos to the other famous eos. in chapter three, some common isobaric equations of state and the related parameters are introduced. we list some empirical eos and clarify their models of theory

    列出了一些常用的經驗物態方程,並闡述了它們的理論模型,同時也對本文提出的物態方程進行了驗證、比較。
  17. Equation of state ( eos ) for porous iron is used to describe the relationship of its state variables : volume, temperature and pressure in equilibrium states, which is used widely in the geography

    物態方程是指描述平衡質系統的壓強、體積和溫度三個熱力學變量關系的等式。研究多孔鐵的沖擊壓縮物態方程在地學領域有廣泛的應用。
  18. The mutual effect potential among particles expresses the mechanical and thermal properties. eos can be obtained by the mutual effect potential and by taking advantage of the correlated theory of thermodynamics. so we can see that the relationship between eos and the mutual effect potential is tight and the research of the relationship is an important branch in the basic field

    粒子間相互作用勢反映了組成質系統的粒子間的力學及熱學特性,通過粒子間的相互作用勢,利用相關熱力學理論可以得到物態方程,所以物態方程和粒子間相互作用勢關系緊密,對它們的研究,也是理學中的一個基礎課題和重要內容。
  19. Equation of state ( eos ) is, in a broad sense, the functional expression which gives the relationship of the vary parameters for the substance system, which shows the properties of the substance in the condition of thermodynamics

    從廣義上講,物態方程是泛指描述處于熱力學平衡質系統的各種狀參量之間關系的函數表達式,用來表達在一定熱力學條件下質的性狀。
  20. A general solution of the thermodynamic energy of systems of gas, magnetic dielectric, dielectric, and of battery was found by working from thermodynamics first law ' s different forms in different matter systems, by using equation of state and thermal capacity in different thermodynamics system and by solving thermodynamic energy differential equation, thus provide a method of studying other qualities in thermodynamics system

    摘要通過熱力學第一定律在不同質系統中的不同形式,利用不同熱力學系統相應的物態方程及熱容量,以及通過求解熱力學能微分,一般性地求解了氣體系統、磁介質系統、電介質系統、電池系統的熱力學能,為研究其他熱力學系統的特性提供了一種法。
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