非等溫的 的英文怎麼說
中文拼音 [fēiděngwēnde]
非等溫的
英文
non-isothermal- 非 : Ⅰ名詞1 (錯誤) mistake; wrong; errors 2 (指非洲) short for africa 3 (姓氏) a surname Ⅱ動詞1 ...
- 等 : Ⅰ量詞1 (等級) class; grade; rank 2 (種; 類) kind; sort; type Ⅱ形容詞(程度或數量上相同) equa...
- 溫 : Ⅰ形容詞(不冷不熱) warm; lukewarm; hot; gentle; mild Ⅱ名詞1 (溫度) temperature 2 (瘟) acute ...
- 的 : 4次方是 The fourth power of 2 is direction
-
In section one, by using fice scheme and time - gcm, a model of trace gases and oh airglow affected by gravity wave is set up, then the propagation of nonlinear gravity wave and the effect on trace gases and oh airglow are analyzed. the result shows gravity wave excited by tropospause forcing can propagate stably to the mesosphere through the stratosphere so that energy and momentum can be transferred from one region to another. in this process, gravity wave undergoes growth, overturning, convection and breaking
在第一部分的工作中,利用全隱歐拉格式和全球熱層-電離層-中間層-電動力學環流耦合模式( time - gcm ) ,對重力波的非線性傳播及其在傳播過程中對中高層大氣中氧族和氫族成分和與之密切相關的oh氣輝輻射的影響進行了數值模擬,結果表明,從對流層向上傳播的重力波經歷了產生、發展、飽和、對流產生直至破碎的非線性演化,大氣的非等溫結構加速了重力波在中層頂區的破碎,重力波的非線性傳播是小尺度對流和湍流產生的一個重要的源。Phase - field simulation of non - isothermal solidification of binary alloy
二元合金非等溫凝固過程的相場法模擬Numerical simulation of dendrite growth for binary alloy during non - isothermal solidification
二元合金非等溫凝固枝晶生長的數值模擬Numerical simulation of non - isothermal dendritic growth of binary alloy using phase - field method
二元合金非等溫凝固枝晶生長的相場法模擬Numerical simulation of non - isothermal temperature field in tundish
中間包非等溫溫度場的數學模擬The reactivity of different kind of coals, the reactivity of the same coal with different lithotype, and the reactivity of char with different carbon conversion rate were checked by using the specific maximum weight loss rate, and the results were analyzed and compared with those obtained by using other criteria
定義試樣在熱天平非等溫實驗中的最大失重速率與該樣品乾燥無灰基含碳量的商為最大比失重速率,採用最大比失重速率對不同煤種、同一煤種的不同宏觀煤巖和同一宏觀煤巖不同燃盡度煤焦等試樣的反應性進行了判斷,同時與採用其他判據的判斷結果作了對比。Isothermal and non - isothermal crystallization experiments conducted for the nanocomposite showed that addition of graphite nanosheets significantly changes the crystallization behaviors of the nylon 6 resin
復合材料體系的等溫及非等溫結晶實驗顯示,石墨納米薄片的加入顯著改變了尼龍6的結晶行為及結晶機理。For pam 1 / nylon 6 with more rigidity composites, the rates of crystallization. during nonisothermal crystallization, the dsc crystallization curves and crystallization temperature tp move towards lower temperature
在非等溫結晶過程中,隨著降溫速率的增大, dsc結晶峰的位置和結晶溫度t _ p向低溫方向移動。Study on the non - isothermal crystallization kinetics of isotactic polypropylene in soybean oil
豆油體系的非等溫結晶動力學The crystal structure of the martensite as quenching state, the variation of the structure of the martensite during non - isothermal aging in the martensite and parent state, under successive deformation condition and under thermal cycling condition in the cu - based shape memory alloys are studied by the x - ray diffraction
摘要運用x -射線衍射分析技術研究了不同成分銅基形狀記憶合金淬火態馬氏體結構、馬氏體狀態非等溫時效過程中結構的變化規律、母相狀態時效和連續變形過程中馬氏體及母相結構的變化規律以及熱循環過程中馬氏體結構的變化情況。A transient, three - dimensional, non - isothermal and two - phase mathematical model based on computation fluid dynamics was developed to describe the dynamic process of pemfc
摘要為描述質子交換膜燃料電池的動態過程,發展了一個基於計算流體動力學的非穩態、非等溫的三維兩相流數學模型。Kinetics of nonisothermal crystallization of high melt strength polypropylene
高熔體強度聚丙烯的非等溫結晶動力學Non - isothermal crystallization kinetics of poly dodecamethylene dicarboxydiphenyl sulfone amides
聚聯苯碸二甲酰十二碳二胺的非等溫結晶動力學Dsc has also been used to study the isothermal and nonisothermal crystallization kinetics
用dsc法研究了復合材料的等溫及非等溫結晶動力學。It was found that in the case of non - isothermal crystallization, the onset and maximum crystallization temperatures of the nylon 6 of the nanocomposites are increased, while the crystallinity and crystallization growth rate is reduced
在非等溫條件下,尼龍6石墨納米薄片復合體系的結晶起始溫度以及最大結晶速率時的溫度均比純尼龍6有明顯的提高,但結晶度以及結晶速率卻出現下降。The wxrd characterization showed that o - mmt possessed obvious nucleation effect on the crystallization process of b - pp. jeziorny and mo methods were used to study the non - isothermal crystallization process. the obtained value of kinetics parameters such as tp, n, zc, t1 / 2, a h, f ( t ), e showed that the o - mmt has nucleation effect in crystallization of pp and can increases the crystallization temperature of pp, quickens the crystall ization velocity, decreases the crystallization activation energy of pp but decreases the crystallization degree of pp at the same time
運用jeziorny法和mo法研究了聚丙烯和復合材料的非等溫結晶過程,所得到的非等溫結晶過程動力學參數t _ p , n , z _ c , t _ ( 1 / 2 ) , h , f ( t ) , e的數值表明,有機蒙脫土的加入可以起到異相成核的作用,從而提高pp的結晶溫度,加快pp的結晶速率,降低pp的結晶活化能,但同時也會降低pp的結晶度。This work include : in order to demarcate chemical kinetic model inwhich organic matter generate oil and gas, constant velocity, rising temperature thermal modeling experiment is designed ; in order to demarcate chemical kinetic model inwhich oil crack into gas, isothermic thermal modeling experiment inwhich oil crack into gas is designed ; in order to establish chemical kinetic model inwhich family constituents in oil ( saturated hydrocarbon, arene, non - hydrocarbon, bitumen ) change into gas, isothermic or constant velocity jsothermal modeling experiment is designed
這一工作包括:為標定有機質成油、成氣的化學動力學模型,設計進行了恆速升溫熱模擬實驗;為標定油成氣的化學動力學模型,設計進行了等溫的油裂解成氣的熱模擬實驗;為建立油中各族組分(飽和烴、芳烴、非烴、瀝青質)成氣的化學動力學模型,進行了恆溫或恆速升溫模擬實驗。The irreversible thermodynamics process is discussed under non - isothermal circumstances, and the physical significance of the external terms in the three - field coupled equations is also analyzed
探討了非等溫條件下,體系不可逆熱力學過程,並對其三場耦合控制方程中附加項的物理意義進行了分析。On the basis of solid - liquid coupling theory and the gas absorption law under different temperatures, the mathematical model of gas flow under unequal temperatures and its numerical solution are obtained
根據瓦斯的吸附解吸規律和煤與瓦斯固流耦合作用的機理,建立了非等溫條件下瓦斯流動的數學模型,並給出用有限元求其數值解的方法及程序。The tg and dta techniques were used to research the decomposition kinetics of depositions. the decomposition mechanism and kinetics - equation were investigated according to phadnis methods, and the equation can be depict as follow : the kinetics parameter of decomposition were obtained by using kissinger methods. the activation energy was 162. 41kj / mol and reaction index was 1. 30
利用phadnis法則,推斷堿式碳酸鈷的熱分解反應機理符合反應級數法則,得到非等溫條件下堿式碳酸鈷的熱分解動力學方程為:並利用kissinger法計算堿式碳酸鉆熱分解反應的表觀活化能為162 . 41kj mol ,熱分解反應級數為1 . 30 。分享友人