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?microgravity

microgravity發(fā)音

英：[ma?kr?ɡ'r?v?t?]　　美：[ma?kr?ɡ'r?v?t?]

英：　　美：

microgravity中文意思翻譯

n. 微重力

microgravity常見例句

1 、Even with extensive physical training while in microgravity, muscle volume and peak power inevitably decrease.─── 即便在微重力條件下增強(qiáng)體能訓(xùn)練 肌肉總量和最大力量還是會(huì)不可避免地下降

2 、Establishment of the simulated microgravity environment.───微重力環(huán)境的創(chuàng)建。

3 、Fiscal 1997 report on the results of the R and D on the invention of high-level combustion technology using the microgravity environment───關(guān)于高水平燃燒技術(shù)用于微重力環(huán)境的研究和發(fā)展結(jié)果的1997財(cái)年報(bào)告

4 、Keywords microgravity;post-spaceflight cardiovascular deconditioning;blood pressure variability;heart rate variability;baroreceptor-heart rate reflex sensitivity;spectral analysis;───微重力;飛行后心血管失調(diào);血壓變異性;心率變異性;壓力感受器-心率反射敏感性;譜分析;

5 、Research on the Effects of Microgravity Vibration Environment in the Spacelab───微振動(dòng)對(duì)空間實(shí)驗(yàn)室微重力環(huán)境的影響研究

6 、Study of Air Transportation of Rectilinear-flow Powder Microgravity───微小重力下直線流粉粒體垂直空氣輸送研究

7 、Keywords Dispersions;Perikinetic coagulation;Density match;Free convection;Microgravity;───分散體系;異向聚集;密度匹配;自然對(duì)流;微重力;

8 、Thermal-magneto-aerodynamics effects on encapsulated floating liquid mixture under microgravity conditions were investigated using CFD technique.───我們將會(huì)用計(jì)算流體力學(xué)的技術(shù)來研究出在微小重力的條件下,熱磁氣體動(dòng)力學(xué)對(duì)壓縮漂浮流體混何物的影響。

9 、Combustion of a Polymer (PMMA) Sphere in Microgravity; Final Report───微重力條件下聚合物(PMMA)球體的燃燒/最終報(bào)告

10 、Effect of asymmetric gravity jitter excited slosh waves at liquid-vapor interface under microgravity───微重力環(huán)境中液體-蒸氣界面上非對(duì)稱重力跳動(dòng)激發(fā)的晃動(dòng)波的影響

11 、Keywords microgravity;bulk metallic glass;hard magnetic;metastable phase;───微重力;大塊金屬玻璃;硬磁性;亞穩(wěn)相;

12 、Microgravity condition───微重力條件

13 、microgravity experiment───微重力實(shí)驗(yàn)

14 、Thus, illuminating the mechanism of muscle atrophy induced by microgravity has a very important theoretical sense for how to make effective precautions and countermeasures.───因此，闡明失重所致肌肉萎縮的發(fā)生機(jī)理對(duì)于制定有效的防護(hù)措施具有十分重要的理論意義。

15 、Keywords Microgravity environment;Manned spacecraft;Combustion;Fire prevention.;───微重力環(huán)境;載人航天器;燃燒;防火;

16 、Clinostat,as a useful simulator of microgravity effect has been used long and widely in space biology research.───回轉(zhuǎn)器是一種古老而又廣泛用作微重力效應(yīng)模擬的地面實(shí)驗(yàn)設(shè)備。

17 、Analysis for Vibration of Side Viewing Mirror in Satellite Camera and Its Effect in Microgravity───衛(wèi)星相機(jī)中側(cè)視反射鏡振動(dòng)及微重力環(huán)境下的影響分析

18 、microgravity effect───微重力效應(yīng)

19 、Zhang HM, Fan XL, Zhou JB, et al. Effects of simulated microgravity on immunoreactivity of conjugatedubiquitin of muscle spindles of soleus in rats [J]. J Gravit Physiol, 2000, 7(2):119120.───吳蘇娣，樊小力，唐斌,等.模擬失重對(duì)大鼠比目魚肌肌梭超微結(jié)構(gòu)的影響[J].航天醫(yī)學(xué)與醫(yī)學(xué)工程,2002,15(1):3235.

20 、Image Analysis of Cardiac Muscle Cytoskeleton under Simulated Microgravity Based on Gray-level Co-occurrence Matrix(GLCM).───基于灰度共生矩陣特征的對(duì)模擬微重力條件下心肌細(xì)胞骨架的圖像分析

21 、Fluid is transferred cephalad in microgravity and simulated microgravity,and the pulmonary circulation is the first to be affected.───微重力或模擬微重力時(shí)體液頭向轉(zhuǎn)移，首先波及肺循環(huán)。

22 、Fractal Analysis for Cytoskeleton Image Under Simulated Microgravity───基于分形特征的模擬失重條件下細(xì)胞骨架的圖像分析

23 、Dynamic three-dimensional induction and differentiation of marrow mesenchymal stem cells into chondrocytes under microgravity: Comparison with static culture───微重力條件下動(dòng)態(tài)三維誘導(dǎo)骨髓間充質(zhì)干細(xì)胞分化為軟骨細(xì)胞:與靜態(tài)培養(yǎng)的比較

24 、Role of Rho associated kinase in contraction of femoral artery from rats underwent simulated microgravity───Rho連接激酶在模擬失重大鼠股動(dòng)脈收縮中的作用

25 、Application of Variable-Order Sliding and Iterating Trend Analysis Method in Microgravity Anomaly───微重力異常的變階滑動(dòng)迭代趨勢(shì)分析法在某油田中的應(yīng)用

26 、Ground-based Studies on Thermoregulation at Simulated Microgravity by Head-down Tilt Bed Rest───微重力狀態(tài)人體熱調(diào)節(jié)的臥床模擬

27 、Experimental microgravity system for zero gravity airplane───基于失重飛機(jī)的微重力科學(xué)實(shí)驗(yàn)系統(tǒng)

28 、Keywords microgravity/simulated microgravity;countermeasures;exercise;orthostatic tolerance;heart rate variability;muscle atrophy;cardiovascular function;cerebral blood flow;───關(guān)鍵詞失重/模擬失重;對(duì)抗措施;體育鍛煉;立位耐力;心率變異性;肌肉萎縮;心臟功能;腦血流;

29 、After just a few days in microgravity your bone and muscle mass begins to shrink dramatically.─── 在微重力環(huán)境中待幾天 你的骨骼和肌肉量就會(huì)開始急劇萎縮

30 、Numerical Simulation of Candle Flame Characteristics in Microgravity───微重力蠟燭火焰特征數(shù)值模擬

31 、They will learn about how rockets are launched, what weightlessness actually is, and how the astronauts spend their days inside the spaceship cabin in a microgravity environment.───他們首先會(huì)學(xué)習(xí)火箭升空的原理和無重狀態(tài)的成因,又會(huì)認(rèn)識(shí)太空人在太空船內(nèi)如何進(jìn)行起居飲食。

32 、Different atmosphere, different levels of oxygenation, different microgravity.─── 不同的大氣層 不同程度的氧化 不同的微重力

33 、eNOS expression increased and iNOS expression of the cells cultured under microgravity was observed.───回轉(zhuǎn)組細(xì)胞eNOS表達(dá)較對(duì)照組增多且表達(dá)iNOS,對(duì)照組細(xì)胞未表達(dá)iNOS。

34 、microgravity fluid management───微重力流體管理

35 、Studying a flame under microgravity could provide evidencehelpful to understanding the mechanism of combustion process.───利用微重力實(shí)驗(yàn)在浮力消失后研究火焰，有助于深入理解燃燒過程。

36 、THE STABILITY OF THE CRYSTAL GROWTH FACE IN A MODEL FOR CRYSTAL GROWTH FROM SOLUTION UNDER MICROGRAVITY───微重力下溶液法晶體生長(zhǎng)模型中晶體生長(zhǎng)界面穩(wěn)定性的研究

37 、Numerical simulation of three-dimensional gas-liquid equilibrium interfaces in the propellant tank under microgravity condition───微重力環(huán)境下推進(jìn)劑貯箱中三維氣液平衡界面的數(shù)值模擬

38 、Kang Qi Duan Li Hu Liang Zhang Jiafeng Hu Wenrui; （National Microgravity Laboratory/CAS; Institute of Mechanics; CAS; Beijing 100080; China）;───中國(guó)科學(xué)院力學(xué)研究所國(guó)家微重力實(shí)驗(yàn)室;

39 、Change of Pulmonary Circulation in Microgravity and Simulated Microgravity───微重力與模擬微重力條件下的肺循環(huán)變化

40 、CHARACTERISTICS OF INTERFACE WAVE OF TWO-PHASE GAS LIQUID ANNULAR FLOW IN MICROGRAVITY───微重力氣液兩相環(huán)狀流界面波特性分析

41 、On the Problems of Gyration Reduction etc in Microgravity Rocket Design───微重力火箭設(shè)計(jì)中減旋方案等問題

42 、Study on Wire Insulation Flammability at Microgravity by Functional Simulation Method───功能模擬微重力下導(dǎo)線的可燃性

43 、These data suggest that a short-term simulated microgravity may result in different alterations in the function of the cerebral artery and the resistance vessel in the hind-body.───上述結(jié)果表明：短期模擬失重可引起大腦中動(dòng)脈與腸系膜小動(dòng)脈血管的肌源性緊張度和收縮反應(yīng)性發(fā)生不同方向的改變；

44 、microgravity science───微重力科學(xué)

45 、Keywords Simulated microgravity;Thigh cuff;HDT bed rest;Leg compliance;───關(guān)鍵詞失重模擬;靜脈加壓套帶;臥床試驗(yàn);下肢順應(yīng)性;

46 、Its comprehensive coverage focuses on research on the effects of microgravity in various production and fabrication processes, including solidification.───它的廣泛報(bào)導(dǎo)集中在對(duì)微重力在各種各樣生產(chǎn)和制造過程，包括固體化中的作用研究。

47 、International Microgravity Laboratory───國(guó)際微重力實(shí)驗(yàn)室

48 、SIMULATION OF FLAME SPREAD OVER THIN SOLID FUEL UNDER MICROGRAVITY USING NARROW CHANNEL ON GROUND───微重力下薄燃料表面火焰?zhèn)鞑サ牡孛嬲ǖ滥M

49 、microgravity accelerometer───微機(jī)械加速度計(jì)

50 、Candle Flame Temperature Measurement in Microgravity by Differential Interferometry───差分干涉法測(cè)量微重力環(huán)境蠟燭火焰的溫度

51 、microgravity crystal growth simulation───微重力晶體生長(zhǎng)模擬

52 、INITIAL STUDY OF VOID FORMATION OF HIGH TEMPERATURE SOLID-LIQUID PHASE CHANGE THERMAL ENERGY STORAGE CANISTER IN MICROGRAVITY───微重力下高溫固液相變蓄熱容器內(nèi)空穴分布

53 、Also, astronauts conduct experiments on the shuttle to learn how space conditions, such as microgravity, affect humans, animals, plants, and insects.───太空人也在太空梭上做實(shí)驗(yàn)，以了解太空中的狀態(tài)，例如微引力，對(duì)人類、動(dòng)物、植物、和昆蟲的影響為何。

54 、Keywords Microgravity;Direct Methanol Fuel Cell;Gas-liquid Two-phase Flow;Visualization;Drop Tower;───微重力;直接甲醇燃料電池;氣液兩相流;可視化;落塔;

55 、microgravity simulated───失重模擬

56 、Keywords Simulated microgravity;Thoracic aorta;Pulmonary artery;Dilatory reactivity;Orthostatic tolerance;───關(guān)鍵詞模擬微重力;胸主動(dòng)脈;肺動(dòng)脈;舒張反應(yīng)性;立位耐力;

57 、Experimental study on islet cells in rats under condition of three-dimensional microgravity───三維微重力培養(yǎng)大鼠胰島細(xì)胞的實(shí)驗(yàn)研究

58 、microgravity processing───微重力狀態(tài)下處理

59 、There is no buoyancy and natural convection at microgravity condition, which will affect the fundamental process of combustion.───在微重力條件下不存在浮力和由其引起的自然對(duì)流,從而影響了燃燒基本過程。

60 、Three-dimensional Cultivation of Cardiac Cells on Fibrous Polyglycolic Acid Scaffolds in Simulated Microgravity───微重力條件下心肌細(xì)胞在聚羥基乙酸纖維支架上的三維固定化培養(yǎng)

61 、Analysis and Improvement Consideration of the Current Human Experimental Models of Humoral Regulation in Microgravity───微重力條件下人體體液調(diào)節(jié)模型的分析與改進(jìn)思考

62 、Pencils may not have been the best choice anyway.The tips could flake or break off, drifting in microgravity where they might harm an astronaut or equipment.───反正鉛筆大概也不是最好的選擇，因?yàn)楣P尖容易碎裂或斷裂，在微重力的環(huán)境下四處飄浮，可能對(duì)太空人或儀器造成損傷。

63 、Microwave processing of materials in microgravity───在微重力環(huán)境中材料的微波處理

64 、Fig.2 All SCs became round and part of them lysed 3 days after adhered S Cs were addedinto a RWVB which simulates microgravity conditions.───圖2已貼壁許旺細(xì)胞進(jìn)入模擬微重力環(huán)境培養(yǎng)3天，許旺細(xì)胞全部變圓，部分細(xì)胞裂解.

65 、Keywords Microgravity Electromagnetic Simulation;Al-Li Alloy;Mechanical Properties;───微重力電磁模擬;鋁鋰合金;力學(xué)性能;

66 、But the astronauts were exposed to abnormal environment such as microgravity, radiation, isolation, confinement, and misalignment of circadian rhythm during space flight.───在航天飛行中，航天員受到微重力、輻射、晝夜節(jié)律變化、隔離等異常環(huán)境因素的影響。

67 、This paper also introduces the study method of microgravity two-phase heat exchangers and suggests resea...───在此基礎(chǔ)上給出了中國(guó)開展航天領(lǐng)域蒸汽壓縮熱泵的研究方案。

68 、The key techniques of the vapor compression heat pump for space use are discussed, which include microgravity two-phase heat exchangers, non-lubricated high-speed compressor etc.───分析了航天用蒸汽壓縮熱泵的關(guān)鍵技術(shù),包括微重力相變換熱器及其研究方法、無潤(rùn)滑高轉(zhuǎn)速壓縮機(jī)等。

69 、Wang Z L.Create an overweight, weightlessness, and microgravity environment with magnetic fluids on the ground[J].Journal of Astronautics, 2004, 25 (2): 179-182.───[4]王正良.在地面上用磁性液體制造流體超重、失重和微重力環(huán)境[J].宇航學(xué)報(bào), 2004, 25 (2): 179-182.

70 、Also, some contents and methods of microgravity combustion research relative to the fire safety are discussed.───對(duì)載人航天任務(wù)中所涉及的微重力燃燒研究的領(lǐng)域、特點(diǎn)及途徑予以討論。

71 、microgravity combustion───微量燃燒

72 、In 1997, NASA brought a specimen aboard Columbia to study the effects of microgravity.───1997年，美國(guó)宇航局將毒棘豹蟾魚放入“哥倫比亞”號(hào)航天飛機(jī)，以觀測(cè)該物種微重力效應(yīng)。

73 、Based on our theoretical research and on-earth experiment,We give some tentative ideas on space experiments of microgravity fluid sciences.───基于我們理論和地面實(shí)驗(yàn)工作基礎(chǔ),提出對(duì)微重力流體科學(xué)空間實(shí)驗(yàn)的一些設(shè)想。

74 、Wavelet Analysis of Vibrating Signal in Electromagnetic Releasing for Microgravity Falling Tower───微重力落塔落艙釋放控制振動(dòng)信號(hào)的小波分析

75 、Microgravity falling tower───微重力落塔

76 、Research Proceeding on the Effect of Microgravity on Erythropoiesis.───失重對(duì)細(xì)胞造血系統(tǒng)影響的研究進(jìn)展。

77 、A VIBRATION PROPAGATION MODEL UPON AXISYMMETRIC VISCOUS LIQUID BRIDGES IN MICROGRAVITY───微重力下軸對(duì)稱粘滯流體橋振動(dòng)傳播的近似模型

78 、The effect of external fields such as electric field,microgravity and magnetic field on the polymeric formation has been widely investigatad.───外場(chǎng)如電場(chǎng)、微重力場(chǎng)、磁場(chǎng)等對(duì)軟物質(zhì)聚合物形成的影響，是目前聚合物科學(xué)領(lǐng)域研究的一個(gè)熱點(diǎn)。

79 、microgravity survey───微重力

80 、Millie Hughes-Fulford, a medical professor at the University of California-San Francisco, and colleagues subjected human immune cells to a device that simulates microgravity.───對(duì)此，休斯-富爾福德表示，“那兒有一個(gè)特殊的信號(hào)傳導(dǎo)通路，它在無重力的條件下無法發(fā)揮作用”。

81 、To help solve the mystery,researchers are using a NASA-developed "rotating bioreactor",which provides a reasonable analogue of microgravity on Earth.───為了有助于解開這個(gè)奧秘，研究人員利用國(guó)家航空航天局研制的“旋轉(zhuǎn)生物反應(yīng)器”，該設(shè)備能在地面提供一個(gè)與太空頗為相似的微重力條件。

82 、Keywords Si doped Ge;Czochralski technique;microgravity crystal growth simulation;───摻鍺硅;直接法;微重力晶體生長(zhǎng)模擬;

83 、MICROGRAVITY EXPERIMENT ON OSCILLATORY CONVECTION IN LIQUID BRIDGEOF SEMI-FLOATING ZONE───半浮區(qū)液橋振蕩對(duì)流的微重力實(shí)驗(yàn)

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戰(zhàn)斗民族說：那咱就上去開一**試試唄？1975年1月24日，蘇聯(lián)在偽裝成禮炮號(hào)空間站的“金剛石”軍用空間站上，秘密測(cè)試了一門23毫米口徑的Nudelman-Rikhter R-23改裝加農(nóng)炮

當(dāng)你在太空中點(diǎn)燃火焰會(huì)發(fā)生什么

”比如生日蛋糕上的蠟燭火焰。因?yàn)橹亓Φ脑?，這種火焰的形狀呈氣態(tài)的淚珠狀——就是我們生活中經(jīng)常見到的那種。熱氣升騰，牽動(dòng)著新鮮的冷空氣。在浮力的作用下，火焰噴射而出并且閃閃發(fā)光。Sowe know all that. What we know less about, though, is the way fire behaves ...IN SPACE. In microgravity, according to the NASA video above, flames behavedifferently than they do here on Earth. Instead of the tear shape we're used tofrom our birthday cakes or Yankee Candle samples or what have you, thegravity-challeged flames form ... fire balls. Seriously. Unlike Earth-boundflames, "which expand greedily when they need more fuel," the videosays, "flame balls let the oxygen come to them." Oxygen and fuelcombine in a narrow zone at the surface of the sphere, rather than "hitherand yon throughout the flame."這個(gè)我們都知道。而我們知之甚少的是：火焰在太空中的燃燒情況。根據(jù)美國(guó)航天航空局的這個(gè)視頻：在微重力的作用下，太空中火焰的燃燒情況和在地球上的不一樣。不同于于地球上的淚珠狀火焰，太空中的火焰因挑戰(zhàn)重力而形成一團(tuán)團(tuán)的火球。真的。該視頻解說：“地球上的火焰需要更多的燃料時(shí)就會(huì)貪婪的擴(kuò)張自己，而太空中的火球則是把氧氣吸引過來。氧氣和燃料在火球表面的一個(gè)有限區(qū)域內(nèi)相互發(fā)生化學(xué)作用，而不是在火焰的整個(gè)范圍內(nèi)發(fā)生作用?！盬hich isknowledge that might have practical applications here on Earth -- and,specifically, to Earth-bound automobiles and the combustion process they relyon for their energy. Williams and a colleague were conducting an ISS-basedexperiment called the Flame Extinguishment Experiment (yep:FLEX) when they madean accidental discovery: in space, droplets of fuel continued to burn. Evenafter their flames had extinguished.了解了這一事實(shí)，可能有助于我們把它應(yīng)用在地球上。比如汽車以及汽車燃料的燃燒過程。這名教授和一位同事是在進(jìn)行工業(yè)標(biāo)準(zhǔn)規(guī)格的實(shí)驗(yàn)——火焰熄滅實(shí)驗(yàn)——時(shí)得到這個(gè)意外發(fā)現(xiàn)的：在太空中，即便火焰已經(jīng)熄滅，但是燃料依然在燃燒。Yep: thefuel burned without flames.是的，燃料在沒有火焰的情況下也能夠燃燒。Or, moreaccurately, the fuel burned with flames that were so faint that they werealmost impossible to see. The FLEX experiment ended up testing the behavior of"cool flames"in space. The flame balls (fueled, in this case, by heptane) started outhot-burning. As they cooled, however, a different kind of burning seemed totake over. Cool flames burn at a relatively low-temperature 400 - 1,000 degreesFahrenheit, and their chemistry is completely different from that of a standardflame. While teardrop-shaped flames produce carbon dioxide, water, and soot,cool flames produce carbon monoxide and formaldehyde. And, importantly, whilecool flames on Earth extinguish immediately, the cool flames tested on thespace station burned for at least a minute.或者，更準(zhǔn)確的說法是：燃料在燃燒時(shí)的確有火焰存在，但是火焰真的太微弱了，以至于我們用肉眼無法看到。最終該實(shí)驗(yàn)演變成了在太空中測(cè)試“冷火焰”的燃燒情況。火球（該實(shí)驗(yàn)中，以康烷為燃料）開始劇烈燃燒。隨著火勢(shì)漸漸變小，另外一種燃燒形式似乎開始掌控全局。冷火焰在相對(duì)低的溫度下燃燒——400-1000華攝氏度，而燃燒過程中的化學(xué)反應(yīng)與地球的火焰完全不同。淚珠狀的火焰產(chǎn)生的是二氧化碳，水和煙灰，而冷火焰產(chǎn)生的卻是一氧化碳和甲醛。還有一點(diǎn)很重要的是，冷火焰在地球上會(huì)馬上熄滅，而空間站中的冷火焰卻至少可以再燃燒一分鐘。視頻中指出，這種現(xiàn)象對(duì)汽車以及其他靠燃燒驅(qū)動(dòng)的交通工具來說具有巨大的應(yīng)用意義。同時(shí)，我們還應(yīng)該記?。喝绻阍谔罩悬c(diǎn)燃一些生日蠟燭，你將會(huì)看到蠟燭的火焰呈球狀，而不是淚珠狀。