English translation for "界面温度"

interface temperature
interfacial temperature

Related Translations:

界面接触:  interfacial contact

圆柱界面:  cylindrical boundary

钻井界面:  drilling interface

界面友好:  user-friendly

界面断层:  boundary-fault

时间界面:  time surface

界面介质:  interfacial medium

界面脂:  boundary lipid

界面间隙:  interfacial gap

内界面:  inner boundaryinterface

Example Sentences:

	1.	Emmed 32 is recommended to used for open or closed systems with a bulk temperature of 315 maximum and a skin temperature of 360 maximum Emmed 32适用作开放式或密闭式系统的传热油，整体操作油温可达315 ，而在热源接触面可抵受360的界面温度。
	2.	The relationship of interface temperature and interface bonding strength of aluminum alloy - steel transition joints in welding is analyzed through simulative heating treatment tests 摘要通过模拟热处理试验，分析了焊接时界面温度与界面结合强度的关系。
	3.	Longitudinal and transverse metallographic specimens for microscopic observation were prepared using conventional techniques . the morphology evolution was observed with neophot - 1 metaloscope and amray100b sem 利用热电偶测温方法，对定向凝固过程中固液界面温度梯度及影响因素进行测试和分析。
	4.	From the vapor phase to the liquid phase , the temperature jumps near the interface . therefore , it is difficult to accurately measure the temperatures near the interface . this may be the main reason of the large difference between the evaporation / condensation coefficients obtained from different experiments 由于界面处存在明显的温度跳跃，界面温度的准确实验测量难度较大，这很可能是文献报道的蒸发/凝结系数的实验研究结果数据分散程度较大的主要原因。
	5.	In this paper i have done several worksuch as : coefficient of thermal expansion of frp sheet is larger different thanthat of the concrete . the interface of frp sheet reinforced concrete will producetemperature stress under the circumstance of temperature difference . i n order todesign the reinforced structure and evaluate safely , it is very significant toanalyse the interface temperature stress and to find the changing law of interfacetemperature stress 本文重点分析了frp片材补强混凝土梁界面温度应力分布理论,解决补强方面的一些工程问题,主要完成了以下几个方面的研究工作:首先, frp片材的热膨胀系数与混凝土的热膨胀系数相差较大,在环境温差作用下, frp片材补强混凝土界面将产生界面温度应力,正确分析界面温度应力和界面应力变化规律,对补强结构设计和安全评价具有重要的意义。
	6.	In order to carries on the theoretical calculation to theinterface temperature stress , therefore established the frp sheet reinforcedconcrete beam interface temperature stress quantitative evaluation formula . inorder to confirm the theory the rationality , this paper designed cfrp , gfrp , thekevlar textile fiber has been certain difference in temperature and in the differentlayer interface temperature stress , moreover also has studied in the same layerand temperature difference of the interface temperature stress 为了对界面温度应力进行理论计算,所以建立了frp片材补强混凝土梁界面温度应力定量计算公式,为了验证理论的合理性,本文设计了cfrp 、 gfrp 、 kevlar纤维在温差一定和不同层数情况下界面温度应力,另外还研究了层数温差不等的情况下界面温度应力。
	7.	( 4 ) thermal pipelines are important parts of concentrated heat supply of the thermoelectricity combination . according to the thermal lube service prospect , the paper calculates thickness of the buried steam pipe , proposes a new opinion of the interface temperature controlling method , and also attempt to determine the resistance loss of the minimal steam tubes and wrote its program ( 4 )热力管网是热电联产集中供热系统的重要组成部分，本文根据热力管道的发展趋势，对直埋蒸汽管道的保温层厚度计算，提出采用界面温度控制法的见解，并进行编程计算，此外，还对直埋蒸汽主管道阻力损失进行编程计算的尝试。
	8.	In this paper , firstly , monolithic materials cosb3 and bi2te3 were prepared by sparkle plasma sintering ( sps ) respectively , and at the same time the microstructure of cosb3 and bi2te3 were studied by sem ; the seebeck coefficients and electrical conductivities of monolithic materials were measured by standard - four - probe method ( ulvac zem - 700 ) in a he atmosphere simultaneously , and their thermal conductivities were investigated by laser flash method ( tc - 7000 ) in vacuum . secondly , the junction temperature of graded bi2te3 / cosb3 thermoelectric materials was optimized based on the thermoelectric transport properties of monolithic materials , also when graded materials were used in the temperature difference ranging from 300k to 800k , the length ratio of monolithic materials cosb3 and bi2te3 were optimized in theory . thirdly , graded bi2te3 / cosb3 thermoelectric materials were prepared by two - step sps sintering , and the relationship between its average seebeck coefficients and temperature were calculated by theory mo del 均质材料cosb _ 3和bi _ 2te _ 3的电导率和seebeck系数采用标准四端子法于he气氛下在zem - 1上同时进行测量；热导率采用激光微扰法( tc - 7000 )于真空状态下进行测量；其次，在对均质材料cosb _ 3和bi _ 2te _ 3热电传输特性研究的基础上，对结构梯度bi _ 2te _ 3 cosb _ 3热电材料的界面温度进行了优化；为了使结构梯度bi _ 2te _ 3 cosb _ 3热电材料在300k至800k的温度范围内具有最佳的热电性能，本研究同时对梯度结构热电材料当中均质材料cosb _ 3和bi _ 2te _ 3材料的长度进行了优化设计；第三，通过两步放电等离子烧结的方法制备出了结构梯度bi _ 2te _ 3 cosb _ 3热电材料；采用理论计算的方法研究了梯度结构热电材料平均seebeck系数和温度的关系；同时为了验证设计的结果，本论文对结构梯度bi _ 2te _ 3 cosb _ 3热电材料的开路输出电压和热端温度之间的关系及梯度材料在300k至800k的温度范围内使用时的功率输出进行了相应的研究。
	9.	The experimental results of the condensation coefficient obtained from the liquid and vapor temperatures near the interface and the results from md simulations are in the same order , but those obtained from the bulk liquid and bulk vapor temperatures are four to five orders lower than the results from md simulations 采用准稳态方法对水的蒸发过程进行了实验研究。研究表明，使用界面温度获得的蒸发系数实验结果与分子模拟获得的凝结系数差距不大，但采用主流区温度获得的蒸发系数与模拟计算结果相差可达4 ~ 5个量级。

Similar Words：

"界面外观" English translation, "界面网格" English translation, "界面位错" English translation, "界面位能" English translation, "界面位置" English translation, "界面污物" English translation, "界面物质" English translation, "界面吸附" English translation, "界面吸附作用" English translation, "界面系数" English translation