?dendrite

dendrite 發(fā)音

英：['dendra?t]　　美：['d?n'dra?t]

英：　　美：

dendrite 中文意思翻譯

dendrite 短語(yǔ)詞組

1、dendrite skeleton ─── 枝晶骨架

2、dendrite formation ─── 枝狀晶體生長(cháng)

3、dendrite arm spacing ─── 枝晶間距

4、dendrite cell ─── 樹(shù)突細胞

5、dendrite growth ─── 枝晶長(cháng)大

6、dendrite spine ─── [醫]樹(shù)突棘

7、solid state dendrite ─── 固態(tài)枝晶

8、dendrite crystal ─── 枝晶晶體

dendrite 詞性/詞形變化，dendrite變形

名詞復數形式:dendrites

dendrite 相似詞語(yǔ)短語(yǔ)

1、dendrimer ─── n.聚合物；樹(shù)形分子；人造分子

2、dendrimers ─── 樹(shù)枝狀大分子

3、chondrite ─── n.[地質(zhì)]球粒狀隕石

4、dendric ─── 樹(shù)狀的；樹(shù)突的

5、dendri- ─── 樹(shù)突

6、dendritic ─── adj.樹(shù)枝狀的；樹(shù)狀的

7、dendrites ─── n.[解剖]樹(shù)突；樹(shù)枝晶（dendrite的復數）

8、enhydrite ─── n.含水礦物

9、tenorite ─── n.黑銅礦

dendrite 常見(jiàn)例句（雙語(yǔ)使用場(chǎng)景）

1、To control the dendrite growth and improve the long-term cyclic performance, magnesium alloys were employed as anode materials. ─── 為抑制枝晶生長(cháng)、改善長(cháng)期循環(huán)性能，本研究嘗試用鎂合金作為鎂二次電池的負極材料。

2、Mn dendrite segregation ─── Mn的樹(shù)枝晶偏析

3、Relations between Solidification Thermal Parameters, Dendrite Arm Space and Tensile Strength in Cylindrical Castings of ZL109 Alloy ─── ZL109合金圓柱體鑄件凝固期熱參數、二次枝晶間距、抗拉強度之間關(guān)系的研究

4、primary dendrite ─── 初級樹(shù)突

5、This paper is to build mathematic model of aluminum solidification microstructure simulation by the phase field method and study the influence of disturbing on dendrite growth. ─── 對研究鋁金屬微觀(guān)組織模擬相場(chǎng)法技術(shù)的數學(xué)模型及擾動(dòng)對枝晶生長(cháng)的影響進(jìn)行了研究;

6、Numerical Simulation of Dendrite Evolution with Cellular Automaton Method ─── 元胞自動(dòng)機方法模擬枝晶演變過(guò)程的分析與研究

7、Numerical simulation on dendrite growth process of Mg alloy using cellular automaton method based on probability capturing model ─── 基于概率捕獲模型的元胞自動(dòng)機方法模擬鎂合金枝晶生長(cháng)過(guò)程

8、Dendrite Arm Spacing in ZL105 Alloy Castings ─── ZL105合金鑄件中的二次枝晶間距

9、Vigorous convection during the rapid dendritic growth, to aid the dendrite breakup, transfer the newly formed grains throughout the melt, and homogenize the temperature of the melt. ─── 在晶枝的快速形成期間，劇烈的對流有助于晶枝分裂，將新形成的顆粒傳遞到整個(gè)熔融金屬，使熔融金屬的溫度均勻。

10、The dendrite grows preferentially when the crystal orientation is consistent with the coordinate axis. ─── 晶體取向與坐標軸方向一致時(shí)枝晶優(yōu)先生長(cháng)；

11、CGRP was also found on periphly and the endothelial cells of the dermal capillaries and on the surface of epidermal dendrite cells in psoriatic plaque lesions. ─── 同時(shí)免疫組化染色形態(tài)學(xué)觀(guān)察發(fā)現CGRP分泌表達于皮損真皮毛細血管壁周及內皮細胞表面，以及表皮細胞間和樹(shù)枝狀細胞表面。

12、chemical dendrite ─── 化學(xué)枝晶體

13、By increasing the speed of cooling, the dendrite arm spacing of austenite, especially the secondary dendrite arm spacing, could be decreased evidently, which was advantaged to improve the synthetic mechanical properties. ─── 冷卻速度增加可明顯減小初生奧氏體的枝晶間距，特別是二次枝晶間距的縮小，對提高中鉻鑄鐵的綜合力學(xué)性能非常有利。

14、The whole process of the dendrite growth in PGO melt crystal growth was visualized in the in situ observation system. ─── 本文介紹了用實(shí)時(shí)觀(guān)察方法研究水溶液中晶體生長(cháng)長(cháng)機制的實(shí)驗。

15、dendrite alloy ─── 枝晶

16、An even higher estimate would be obtained e.g. if one were to suppose that functionally relevant and computationally intensive processing occurs within compartments of a dendrite tree. ─── 其他更高的估計需要滿(mǎn)足一些條件，例如假定有關(guān)功能和計算在樹(shù)突的間隔中進(jìn)行密集處理。

17、The phase-field model coupled with the concentration field was used to simulate microstructural dendrite growth of the alloy Fe-0.5%C-0.02%P(mole fraction). ─── 基于KKS模型,采用相場(chǎng)和溶質(zhì)場(chǎng)兩場(chǎng)耦合的方法,對Fe-0.5%C-0.02%P(摩爾分數)合金凝固過(guò)程枝晶生長(cháng)進(jìn)行了數值模擬。

18、Keywords forging heating technology dendrite segregation structure homogeneity; ─── 加熱工藝;枝晶偏析;組織;均勻化;

19、Comparing with the coarse dendrite microstucture of base metal, the eutectic Si particles are homogeneously dispersed in nugget zone without visual defects. ─── 與母材相比，焊核區的硬度分布較均勻，變化幅度小，拉伸試驗大都斷裂在接頭熱影響區處，接頭的抗拉強度可達母材的70%左右，表現出了較好的機械性能。

20、THE MATHEMATICAL MODELS FOR SECONDARY DENDRITE ARM ISOTHERMAL COARSENING ─── 二次枝晶臂等溫粗化數學(xué)模型

21、It can be concluded that the reason of dendrite refinement at different undercooling is not same. ─── 但在不同的過(guò)冷度范圍，凝固組織細化機制不同。

22、Keywords directional solidification;superheat treatment;primary dendrite arm spacing;melt structure;solidification microstructure; ─── 定向凝固;過(guò)熱處理;一次枝晶間距;熔體結構;凝固組織;

23、With increasing tin ion additive, zinc dendrite was dramatically inhibited. ─── 隨著(zhù)錫離子添加劑含量的增加，鋅枝晶被顯著(zhù)抑制。

24、Within each dendrite arm, microsegregation occurs. ─── 在每個(gè)晶體枝杈內，也存在著(zhù)微觀(guān)偏析。

25、In high cathodic polarization potential region the growth of zinc dendrite is not inhibited due to the additive desorbing from the electrode surface. ─── 在高陰極極化區，添加劑自電極表面脫附，失去對鋅枝晶生長(cháng)的抑制作用。

26、Dendrite Growth Model in Bulk Undercooled Alloy Melt ─── 極端非平衡條件下過(guò)冷熔體枝晶生長(cháng)模型

27、solid-state dendrite ─── 固態(tài)樹(shù)枝狀晶體

28、During the electrodeposition of lead, the dendrite deposit segregates from the cathode due to the disturbance of hydrogen gas. ─── 摘要在鉛的薄層電沉積生長(cháng)中，鉛的枝晶沉積物由于氫氣的擾動(dòng)從陰極斷裂。

29、At the same time, the nucleation density affects the dendrite morphologies, especially the growth of secondary and tertiary dendrite arms. ─── 形核密度在一定程度上影響著(zhù)枝晶形態(tài)，特別是影響著(zhù)二次和三次枝晶的生長(cháng)。

30、Keywords cellular automata;grain growth;solidification;dendrite; ─── 元胞自動(dòng)機;晶粒生長(cháng);凝固;枝晶;

31、Soma and dendrite of NOS neurons were similar in each group. ─── 各組大鼠一氧化氮合酶陽(yáng)性神經(jīng)元的胞體和樹(shù)突均相似。

32、The immunoreactive dendrite of intermedial and ventral horn extend to the lateral and ventral trace, some to the ver ge of spinal cord. ─── 中間帶和腹角內的陽(yáng)性胞體的樹(shù)突還伸向外側索和腹索，有時(shí)可達脊髓邊緣。

33、Keywords Fe-Ni superalloy;grain refinement;nucleant;dendrite morphology; ─── 基高溫合金;晶粒細化;細化劑;枝晶組織;

34、dendrite inhibition ─── 抑制枝晶

35、The rapid dendrite growth of multicomponent alloys is an important research subject in the field of materials science. ─── 多元合金的深過(guò)冷與快速枝晶生長(cháng)是材料科學(xué)領(lǐng)域的重要研究課題。

36、Keywords A357 alloy;melt treatment;dendrite coherency point;solidification behavior;low-pressure casting; ─── A357合金;熔體處理;枝晶搭接點(diǎn);凝固行為;低壓鑄造;

37、Methods Multip le-site intracellular recordings on the soma and the ventral dendrite(VD)of M cell and direct current stimulation on the skin surface of the fi-sh s trunk were employed. ─── 方法電刺激皮膚并結合M細胞多點(diǎn)胞內穿刺技術(shù)記錄胞體及腹側樹(shù)突的電反應。

38、Dendrite Growth of Zinc in Quasi-Two-Dimensional Electrodeposition ─── 二維鋅枝晶生長(cháng)行為研究

39、α-Al dendrite ─── α-Al枝晶

40、this action gives rise to the formation of large islands in the scanned area and dendrite growth along the scanning boundary. ─── 這一行動(dòng)引起了形成大島的掃描面積和枝晶生長(cháng)沿掃描邊界。

41、Relationship between Solidification Thermal Parameters and Dendrite Arm Space and Soundness in ZL 105 Alloy Plate Castings ─── ZL105合金平板鑄件凝固期熱參數二次枝晶間距與致密性之間關(guān)系的研究

42、We can obtain the relationship between dendrite arm spacing and cooling rte by analyzing the result. ─── 對AZ91合金得到冷卻速率與枝晶間距的經(jīng)驗關(guān)系式為y=62.861x-0.3363。

43、The growth of aluminum solidification dendrite has been simulated under disturbed and undisturbed condition, which based on the phase field method. ─── 在相場(chǎng)法數學(xué)模型基礎上,對有擾動(dòng)和無(wú)擾動(dòng)情況下的鋁金屬凝固枝晶生長(cháng)進(jìn)行了模擬;

44、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(cháng)的數值模擬

45、She is young, cheerful, it seems that character has not been outside dendrite embellished. ─── 她是年輕的，開(kāi)朗的，似乎性格的枝蔓沒(méi)有被外界修飾過(guò)。

46、A synapse,which was made of two dendritic spines which were at the initial segment of the dendrite,was observed in this area and there were some cisternae in one of the dendritic spines. ─── 在兩個(gè)樹(shù)突的近端還觀(guān)察到1例由兩樹(shù)突棘形成的突觸，并且其中一個(gè)樹(shù)突棘內有幾個(gè)扁平的囊和正從其兩端芽生突觸囊泡。

47、Keywords KABO crystal;anionic coordination-polyhedra;morphology;dendrite; ─── KABO晶體;負離子配位多面體;生長(cháng)形態(tài);枝蔓晶;

48、α-Mg dendrite ─── α-Mg樹(shù)枝晶

49、Second dendrite ─── 二次枝晶

50、Numerical Simulation of Dendrite Development in Ternary Alloy Solidification ─── 三元合金凝固過(guò)程枝晶生長(cháng)數值模擬

51、Keywords semisolid metal;dendrite;granular particle;evolution time; ─── 半固態(tài)金屬;樹(shù)枝晶;粒狀晶;演變時(shí)間;

52、The more the increase of cooling rate or pre-deformation, the more the secondary dendrite arms are easy to coarsen. ─── 冷卻速率越大或預變形處理以后的試樣在熔化過(guò)程中更容易發(fā)生二次枝晶臂之間的合并。

53、In this paper, the principle and model of dendrite simulation with CA method were introduced, the development of which was reviewed and the problem to be further studied were pointed out. ─── 介紹了CA方法模擬枝晶生長(cháng)的原理和模型,評述了CA方法在枝晶模擬方面的發(fā)展歷程,指出了存在的問(wèn)題的和進(jìn)一步研究的方向。

54、Such changes greatly influence the dendrite structure of matrix, precipitation, solute segregation, interfac... ─── 基于此,綜述了凝固過(guò)程對鋁基復合材料組織與性能的作用規律。

55、second dendrite arm spacing ─── 二次枝晶臂間距

56、Keywords Hsiang-Tung Chang;cerebral cortex;apical dendrite;dendritic potential;axonal initial segment;dendritic back-propagating potential;neuronal synaptic plasticity; ─── 張香桐;大腦皮層;頂樹(shù)突;樹(shù)突電位;軸突始段;樹(shù)突返傳動(dòng)作電位;神經(jīng)元突觸可塑性;

57、A junction between the axon of one neuron (presynaptic) and the dendrite of another (postsynaptic). ─── 一種神經(jīng)元(突觸前)的軸突與另一個(gè)(突觸后)的樹(shù)突間的一類(lèi)連接。

58、Keywords superalloy;dendrite structure;microsegregation;precipitated phases;grain refinement; ─── 關(guān)鍵詞高溫合金;枝晶組織;顯微偏析;合金相;晶粒細化;

59、The larger supercooling , the quicker of the dendrite tip velocity; the smaller of the curvature radius. ─── 過(guò)冷度越大，枝晶的生長(cháng)速度越快，尖端曲率半徑越小。

60、Rather than beating about the bush, the fall of the dendrite in the matter of flopping about. ─── 而不是拖泥帶水，陷落在無(wú)關(guān)緊要的枝蔓中撲騰。

61、Phosphorylation of postsynaptic density proteins remains a largely unexplored mechanism in activity-dependent regulation of dendrite development and synaptic function. ─── 在樹(shù)突發(fā)育和突觸功能活性依賴(lài)的調節過(guò)程中，突觸后致密蛋白磷酸化的機制仍然是未知的領(lǐng)域。

62、Used 8% nitric acid can be show the distributing of the dendrite and it is shape. ─── 8%的硝酸溶液能夠很好地顯示枝晶的形態(tài);

63、RELATIONSHIP BETWEEN COOLING RATE AND SECONDARY DENDRITE ARM SPACING FOR STEEL No. 45 ─── 45號鋼二次枝晶臂間距與冷卻速度的關(guān)系

64、Keywords optic technique;microstructure analysis;rotating magnetic field;macrosegregation;melt flow;dendrite fragmentation; ─── 光學(xué);凝固組織分析;旋轉磁場(chǎng);宏觀(guān)偏析;熔體流動(dòng);枝晶碎斷;光學(xué)表征;

65、apical dendrite ─── 尖端樹(shù)突

66、dendrite microsegregation ─── 枝晶偏析

67、austenite dendrite ─── 奧氏體枝晶

68、Research on Secondary Dendrite Arm Spacing ─── 二次枝晶臂間距的研究

69、Effect of Chill on Secondary Dendrite Arm Spacing of Aluminum Alloy Casting ─── 冷鐵對鋁合金鑄件二次枝晶間距的影響

70、Keywords dendrite structures;interdendritic segregation;precipitate;inclusion;microporosity; ─── 關(guān)鍵詞枝晶組織;枝晶偏析;析出相;夾雜;縮松;

71、Dendrite Arm Spacing in Cylindrical Castings of ZL101 Alloy ─── ZL101合金圓柱體鑄件中的二次枝晶間距

72、Multiple intracellular recordings showed that the cerebellum-evoked EPSP originated in the distal end of the ventral dendrite. ─── 多點(diǎn)胞內連續穿刺實(shí)驗顯示小腦誘發(fā)性EPSP起源于腹側樹(shù)突遠端。

73、A Study of Dendrite Microsegregations on PREP FGH95 Powders ─── FGH95粉末枝晶間合金元素偏析的研究

74、Progress in Crystalline Particulate and Dendrite Toughened Metallic Glass Matrix Composites ─── 晶態(tài)顆粒、枝晶增韌非晶基復合材料的研究進(jìn)展

75、noradrenergic dendrite ─── 去甲腎上腺能樹(shù)突

76、The directional growth under different undercooling was analyzed on the foundation of free dendrite growth theories (LKT/BCT). ─── 并采用過(guò)冷熔體枝晶生長(cháng)(BCT)模型對不同過(guò)冷度下出現的定向生長(cháng)行為進(jìn)行了分析。

77、plane dendrite ─── 平面枝蔓

78、primary dendrite arm spacing ─── 一次枝晶間距

79、secondary dendrite arm space(DAS) ─── 二次枝晶間距

80、Keywords A357 alloy;dendrite coherency point;double-thermocouple;cooling rate;melt treatment; ─── A357合金;枝晶搭接點(diǎn);雙熱電偶;冷卻速率;熔體處理;

81、The morphology,phase,composition and the temperature of dendrite formation of LiAlSiO 4 SiO 2 system in the matt glaze have been investigated. ─── 本文研究了無(wú)光釉中 Li Al Si O4? Si O2 固溶體的枝晶形貌、物相、成分、形成溫度及其關(guān)系。

82、dendrite growth direction is changed and dendrites are curved in the zone of white band. ─── 的枝晶生長(cháng)方向改變而生成彎曲的枝晶。

83、dendrite shape ─── 晶粒形狀

84、The dendrite growth in the undercooled melt of pure has been simulated by the phase-field method. ─── 摘要簡(jiǎn)介了相場(chǎng)方法，利用相場(chǎng)法對純鋁進(jìn)行了數值模擬。

85、Keywords Rotating magnetic field;Melt flow;The thulium;Dendrite fragmentation;Macrosegregation;Pb-free alloy;Wetting ability; ─── 旋轉磁場(chǎng);熔體流動(dòng);稀土元素;枝晶細化;宏觀(guān)偏析;無(wú)鉛焊料;潤濕性;

86、Keywords FGH95 alloy;ingot;homogenization treatment;dendrite segregation; ─── FGH95合金;鑄錠;均勻化處理;枝晶偏析;

87、Along with the increase of melt superheat time, the primary dendrite arm spacing decreases and the microstructure is refined. ─── 隨著(zhù)熔體過(guò)熱時(shí)間的延長(cháng)，一次枝晶間距減小，組織越來(lái)越細密；

88、Phase Field Simulation of the Growth of Equiaxed Dendrite for Binary Alloy ─── 二元合金等軸枝晶生長(cháng)相場(chǎng)模擬

89、dendrite arm ─── 晶枝