高溫反應堆 的英文怎麼說

中文拼音 [gāowēnfǎnyīngduī]
高溫反應堆 英文
high temperature reactor
  • : Ⅰ形容詞1 (從下向上距離大; 離地面遠) tall; high 2 (在一般標準或平均程度之上; 等級在上的) above...
  • : Ⅰ形容詞(不冷不熱) warm; lukewarm; hot; gentle; mild Ⅱ名詞1 (溫度) temperature 2 (瘟) acute ...
  • : Ⅰ名詞1 (方向相背) reverse side 2 (造反) rebellion 3 (指反革命、反動派) counterrevolutionari...
  • : 應動詞1 (回答) answer; respond to; echo 2 (滿足要求) comply with; grant 3 (順應; 適應) suit...
  • : Ⅰ動詞(堆積) pile up; heap up; stack Ⅱ名詞1 (堆積成的東西) heap; pile; stack 2 (小山 多用於地...
  • 高溫 : high temperature; elevated temperature; hyperthermia; megatemperature; inferno
  1. The effects of main process factors such as feeding mode, reaction ph values, and ratio of ammonia and nickel ion, reaction time, agitation, reaction temperature and aging et al on the crystallization course and physical properties of nickel hydroxide were studied in detail. at last, we acquired the optimal preparation parameters, the spherical nickel hydroxide with high tap density and crystalloid degree, perfect flow ability were prepared

    在研究加料方式,氨水的加入量,時間、體系ph值、度、攪拌、陳化等主要工藝條件對ni ( oh ) _ 2結晶過程和物理性能影響的基礎上,確定了較優的工藝參數,制備出了積密度和結晶緻密程度較、流動性較好的球形ni ( oh ) _ 2 。
  2. Criteria for nuclear reactor reactor instrumentation part three. high temperature gas - cooled reactor

    儀表準則第3部分:氣冷
  3. Decay heat power in nuclear fuels of high - temperature reactors with spherical fuel elements

    帶球形燃料元件的高溫反應堆的核燃料衰變熱力的計算
  4. Decay heat power in nuclear fuels of high - temperature reactors with spherical fuel elements ; documentation and illustration

    帶球狀燃料元件的高溫反應堆的核燃料衰變熱力的計算
  5. The random mathematical model is described using equivalent markov equations. the time and state parameters are discrete. based on the model, the flow rate distributions along radial and average at any height can be calculated directly, moreover, the probability transition matrix of the flow can be determined via the statistic character of the random cumulate particles, and be corrected by s. cd the random theoretical model shown in fig. l, the section of the bed of tbr is divided into a series of concentric circles

    一、在常和常壓下進行滴流床器流率分佈的研究,以狀態離散、時間離散的齊次markov過程描述了滴流床在滴流區的流率分佈,建立了滴流床在滴流區流率分佈的隨機模型,根據此模型可以: 1 、可直接確定任一度下的液體徑向流率分佈及平衡流率分佈; 2 、液體流動的概率轉移矩陣可由隨機積顆粒的統計特性確定,以參數s修正。
  6. Practice for testing graphite and boronated graphite components for high - temperature gas - cooled nuclear reactors

    氣冷核石墨及硼酸化石墨元部件試驗慣例
  7. Standard practice for testing graphite and boronated graphite components for high - temperature gas - cooled nuclear reactors

    氣冷核用石墨及硼酸化石墨元部件試驗的標準實施規程
  8. The water temperature at the reactor pressure vessel outlet is about 330 degree c whereas the water temperature at the inlet of the vessel is about 290 degree c. the cooling water is in a sub - cooled condition at such high temperature and pressure to prevent it from boiling

    出水的度約為攝氏330度,而入水口的度約攝氏290度。在這壓狀態下的冷卻水會處于欠熱狀態即冷卻水的度與其沸點有一段距離,因此不會沸騰。
  9. The forming - nucleus drive power could form numerous little crystal nucleus under natural melting temperature. the formation of tic particles in the melt could be divided into two phases which was forming - nucleus and growth. the forming mechanism of tic was : melting ti first surrounded c, then ti melting in the alloy and c formed a complicated reaction mesosphere on the carbon surface

    根據熱力學及動力學分析,認為在碳顆粒界面處tic的形核率很,形核驅動力足以在正常的熔煉度下形成眾多的小晶核;熔體中tic顆粒的合成可分為形核與長大兩個階段,其形核機制為:首先活性ti原子包圍c ,溶入合金中的ti與c在碳表面形成一復雜中間層,隨著進行, ti和c顆粒不斷減少,生成的tic不斷彌散分佈於熔體中;其長大過程伴隨著tic顆粒的相互砌、聚集和形態規則化。
  10. Changing the grading of sic particles not only affects the strength and pile density, but also modifies the phase compositions and microstructure of the material. with the reducing of sic particles, the strength of the material increases obviously. the nitrification scheme has the greatest influence on phase compositions and microstructure " of si3n4 ( si2on2 ) - sic, after two continuous nitrification reacting peak and short - time high - temperature treating, the best properties can be obtained ; and the residual strength of the composite is much higher after the thermal shock resistance test, which shows that the material possesses excellent thermal shock resistance

    本論文較全面地探討促進強度和顯微結構良好的si _ 3n _ 4 ( si _ 2on _ 2 )結合相的實驗條件,實驗數據顯示:引入適量的燒結助劑能夠促進si _ 3n _ 4 ( si _ 2on _ 2 )的生成和晶粒的長大,而過量時,其促進作用而下降;隨著si粉加入量增加,生成的結合相明顯增多,復合材料的性能顯著提;改變sic顆粒級配不僅影響復合材料的強度與積密度,而且對復合材料的物相與顯微結構也有影響,隨著顆粒逐漸細化,材料的強度有較大的提;對復合材料的強度、物相與顯微結構影響最大的是氮化制度,經過兩個氮化峰連續的和短時間的后處理得到的復合材料性能最好;通過抗熱震性能實驗后復合材料的殘余強度較,顯示出較好的抗熱震性能。
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