1)Supercooling[英][,su:p?'ku:l][美][,sup?'kul]过冷却
1.Supercooling Point Shift of Pea Leafminer Pupae with Latitude and Its Implication for the Population Dispersion;南美斑潜蝇地理种群蛹过冷却点随纬度递变及其对种群扩散的意义
英文短句/例句
1.To condense(a gas)by cooling.通过冷却压缩(气体)
2.There is coolant flow through the coolant tank (bottle) before and after the thermostat opens.在调温器打开之前和之后,有冷却剂流过冷却剂贮藏箱(瓶)。
3.Vapour can be changed into liquid by cooling.蒸气可以通过冷却变成液体。
4.The process of cooling is called quench .这种冷却过程叫做淬硬。
5.tee coolant flow通过三通管的冷却液流
6.Description Methods of Surface Cooling Process on a Spherical sample in Quenching Cooling淬火冷却中球体表面冷却过程的几种描述方法
7.Dynamic Feature of Cooling Process and Actual Quenching for Steel冷却过程的动态特性与钢的实际淬火冷却
8.the process of cooling or freezing for preservative purposes.为了储藏把某物冷却或冷冻的过程。
9.Analysis of the Hydraulic Transient in Water-Cooling System of Power Plants;火电厂冷却水系统水力过渡过程分析
10.a condenser: during distillation the vapor passes through a tube that is cooled by water.一种冷凝器:;蒸馏时气体通过试管被水冷却。
11.I shivered but I'm not cold-somebody must have walked over my grave.我不冷但却打了个冷颤——有人一定在我坟上走过。
12.kept cool or designed to be kept cool by means of water especially circulating water.通过水尤其是循环的水流而保持冷却或被保持冷却的。
13.This paper introduces a strip laminar cooling process simulation software for the hot strip mill.以热乳厂板带乳后的冷却过程为背景,开发层流冷却仿真系统。
14.Steel is tempered by heating and then cooling it钢是经过加热,然后冷却来回火。
15.harden by reheating and cooling in oil.通过重新加热并在油中冷却来使变硬。
16.The air then passes through heat exchangers where it is cooled to cryogenic temperature.接着空气通过热交换器冷却到低温。
17.The transmittance is central to the theory of radioactive cooling.透过率是辐射冷却理论的中心。
18.The Numerical Simulation on Temperature Field of Water Cooling Process of High Speed Wire;高线穿水冷却过程温度场的数值模拟
相关短句/例句
cooling process冷却过程
1.3-D FEM simulation of hot-leveling and cooling process of heavy plate宽厚板热矫直和冷却过程的三维有限元模拟
2.On the basis of the results of numerical simulation of temperature fields for the ceramic_lined pipe made by Centrifugal_SHS (self_propagating high_temperature synthesis)process, the changes of temperature, dimensions of every layer and stresses induced in the ceramic layer during cooling process were analyzed and calculated.根据离心SHS陶瓷复合钢管温度场的数值模拟结果,对各层的温度、尺寸以及陶瓷层中应力在冷却过程中所发生的变化进行了分析和有关计算,研究了陶瓷层在不同温度阶段形成裂纹的类型及其机理,并提出准压裂纹的概念,按裂纹产生的力学原因将陶瓷层裂纹类型归纳成张裂纹、压裂纹和准压裂纹三种。
3.The dynamic HMI software is designed with VB for a cooling process in production line of steel plate,which can trace positions of heavy plates,display the temperatures measured by specific sensors,and calculate temperature distribution of plates.针对某一个冷却生产线,利用VB语言设计冷却过程的钢板位置跟踪、显示测温点的温度和计算的冷却过程的温降分布的动态人机界面的软件实现。
3)cooling stage冷却过程
1.The influence factors of cooling stage for nonwoven composite thermoforming were analyzed from the aspects of material,mold cooling and processing parameters.针对非织造复合材料模压成形的冷却过程,从材料、模具及成形工艺三方面探讨了影响制品冷却效果的因素。
4)supercooler过冷却器
1.Further studies based on the authors earlier researches the conditions under which no freezing occur in the supercooler while sufficient supercooling of water is guaranteed.在作者前期研究的基础上 ,进一步研究了保证过冷水动态制冰系统中过冷却器不发生结冰的条件 ,建立了能够稳定运行的过冷水动态制冰实验装置。
5)Supercooling water过冷却水
6)supercooling point过冷却点
1.Determination of the supercooling points of various castes and developmental stages of the red imported fire ant,Solenopsis invicta(Hymenoptera:Formicidae)in mainland China我国大陆红火蚁不同等级和虫态过冷却点的测定
2.Relationship between the supercooling point and the biochemical componens of Agrius convolvuli甘薯天蛾过冷却点变化与生化成分的关系
3.Meanwhile,the relations between cold-hardiness and supercooling point(SCP),strategies of co.本文对有关二化螟耐寒性的研究现状进行了综述,从其耐寒性与过冷却点、耐寒对策、环境变化和自身耐寒物质调节之间的关系等方面进行了分析,同时对该虫今后耐寒性研究重点提出了相应的建议。
延伸阅读
过冷却理论过冷却理论supercooling theory 5一一NZ┌─┐│} ││1 ││} │├─┤│} ││1 ││} │├─┤│ │├─┤│ │└─┘ 体液状态 不同温度下昆虫体液变化图解1.高温昏迷区;2.高适宜温区:3.低适宜温区;4低温昏迷区;5.体液过冷却; N:.体液开始过冷却;从体液正常冰点;TI.临界点(过冷却点); (仿H .BaxMeT卜eB)6.体液再冻结;7.体液冻结;8.假死状态孔.冻结点(死亡)过冷却理论(supereooling theory)解释昆虫体液在低于0℃的低温下仍不冻结的学说,也称昆虫耐寒性理论(eold hardiness theory)。昆虫是变温动物,体温随外界环境温度的变化而变化。昆虫体液内含有的大量糖、脂肪、蛋白质等化学物质,同原生质形成一定的有机结构,使体液可忍受O℃以下的低温仍不冻结,这种现象称为“过冷却现象”怡ul芜r-Cooling,。俄国巴赫梅捷夫(fl.BaxMeT、eB)1907年创立了“复苏现象”(a nabiosis理论,他提出当外界温度低于冰点时,昆虫体液处于过冷却阶段,呈冷昏迷状态,但不致生理失调;此时如环境温度回升,昆虫仍可恢复正常活动。当体温下降到零下某一点(Tl)时,虫体组织细胞内放出潜热,使体温突然回升到接近O℃(绝不达到0℃)的地方。上述释放潜能的起点(T;)称为过冷却点(supereooli眼point)或临界点。然后体液开始冻结(N:)。如体温继续下降,昆虫就进入假死状态。此时若环境温度回升,昆虫仍有恢复生活的可能,一旦体温降到TZ,一般情况下昆虫不能再复苏。低温点T:称死亡点(见图)。 不同的昆虫种类、虫态、体内生理状态和生活条件、降温的快慢等,都可影响昆虫过冷却点的高低。依据昆虫抗低温的能力,可将昆虫分为3个不同的生理类群:①不耐寒种,在稍低于其生命活动温界的环境温度下即迅速死亡;②能经受不同时间(有时甚至非常长久的)的过冷却,但不能耐受甚至是短暂的体液冻结的种;③无论对过冷却或结冰都能耐受的种。在不同程度的降温下,引起死亡的原因可有不同。在接近冷却昏迷温界的条件下,昆虫新陈代谢下降的顺序性和均衡性常可减轻生理失调。长期留居在适度低温条件下,会使有机体虚弱易遭寒冷致死,在零下的过冷却温区内,导致有机体达致死界限的决定因素是脱水作用。(周昌清)
