1)increasing temperature process升温过程
1.Effect of increasing temperature process and atmosphere pressure on CdTe oolv crvstalline thin films in close-spaced sublimation;升温过程和气压在近空间升华沉积CdTe多晶薄膜中的作用
英文短句/例句
1.Analysis of warm-up process of metered heat system计量供热系统运行调节升温过程分析
2.Changes in Cold Resistance Mechanism of Almond Apricot during Variation of Natural Temperature自然升温过程中仁用杏抗寒性的变化
3.Microstructure Transformation during Ramp-up of Weld in Brazing Copper with Cu-P Amorphous Fillers非晶铜磷钎料升温过程中的组织演变
4.Monitoring of Industrial Furnace by Visualization and Analysing of Temperature-rising Process of Heated Matreial;工业炉炉内可视化监测及板坯升温过程分析
5.Analysis of Air Temperature Rise Process and Structural Performance of Large-span Lattice Shell under Fire大跨度网壳结构火灾升温过程及结构性能分析
6.Effects of enhanced temperature on algae recruitment and phytoplankton community succession升温过程对藻类复苏和群落演替的影响
7.Temperature rise process of coal particle in a fluidized bed gasifier and its influence流化床气化炉内煤颗粒的升温过程及影响
8.Experimental Studies on the Relation between the Radon Exhalation Rate and the Temperature in Coal’s Temperature-rise Period煤升温过程中氡析出率与温度之间关系的试验研究
9.Simulation on Temperature Field of TB6 Titanium Alloy Ingots in Heating ProcessTB6钛合金升降温过程温度场的模拟
10.Discussion on Proficiency Testing Process of Copper Winding Temperature-Rising Test铜质绕组温升试验能力验证过程讨论
11.the process of becoming warmer; a rising temperature.使物体变得更热的过程;物体温度上升的过程。
12.Research on temperature rise characteristics of hydrogen peroxide in the process of self decomposition过氧化氢水溶液在自分解过程中的温升特性
13.NITROGEN RELEASE DURING TEMPERATURE PROGRAMMED COAL GASIFICATION程序升温气化过程中氮的释放规律研究
14.Sectional Bending Capacity of Restrained RC Beams during Heating and Cooling Phases升降温全过程混凝土梁截面抗弯承载力分析
15.Temperature-rise of Transformer and Heat Transfer Process for Embedding System地埋式变压器温升及地埋系统热传递过程
16.Effects of Stepped Heating-up on Crystallization Process and Properties of FeSiCuNbB Amorphous Magnetic Cores分级升温对FeSiCuNbB非晶磁芯晶化过程和性能的影响
17.MATHEMATICAL MODEL OF TEMPERATURE AND PRESSURE DISTRIBUTION IN WELLBORE DURING FOAM FLUID LIFT ACID DRAINAGE泡沫举升排酸过程井筒压力温度数学模型研究
18.Special device to ensure material low tempeture, the low temperature can guarantee the material and manufacturing process stable.特点:1.独特控温机构,生产过程物料不升温、变性,确保工艺稳定。
相关短句/例句
coal's temperature-rise period煤升温过程
3)rapid heating condition快速升温过程
1.Taking the Non-Fourier heat diffusion effect into account, the temperature histories of coal particles under rapid heating condition are simulated with the help of the CV model and D-L-P model.该文针对煤颗粒快速升温过程中非傅立叶导热效应,利用热波模型和D-P-L模型对快速升温过程中煤颗粒的温度场进行的数值模拟,与实测结果进行了比较。
4)Heating and melting pro cesses升温熔化过程
5)control of increasing and decreasing temperature course升降温过程控制
6)temperature-rise period升温过程(阶段)
延伸阅读
正规过程和倒逆过程 讨论完整晶体中声子-声子散射问题时,由于要求声子波矢为简约波矢(见布里渊区),所得到的总波矢守恒条件会相差一个倒易点阵矢量G)。例如对于三声子过程有下列条件 , (1) 式中q1和q2是散射前的声子简约波矢, q3为散射后声子波矢,式(1)中G)的取值应保证q3也是简约波矢。这时会出现两种过程,其一是当q1+q2在简约区内时,可以取倒易点阵矢量G)=0,式(1)则简化为总波矢守恒条件,称为正规过程或N过程。其二是当q1+q2超出简约区时,所取G)应保证q3仍落于简约区内,由于q3与q1+q2相差G),显然q3位于q1+q2的相反一侧,这时散射使声子传播方向发生了倒转,故称为倒逆过程或U过程。U过程总波矢不守恒,但总能量守恒,因为声子频率是倒易点阵的周期函数,而q3与q1+q2只相差一个倒易点阵矢量。N过程在低温长波声子的散射问题中起主要作用。当温度升高,简约区边界附近的声子有较多激发时,U过程变得十分显著,它对点阵热导有重要贡献。 在能带电子与声子散射问题中存在着与式 (1)相仿的总波矢条件 k+G=k┡±q, (2) 式中k与k┡分别为散射前后电子的简约波矢,±号分别对应于吸收或发射q声子。类似的在热中子-声子散射以及晶体中一切波的相互作用过程中,总波矢变化都相差一个倒易点阵矢量G),因此也都有N与U过程之分。这是晶体和连续媒质不同之处,连续媒质对无穷小平移具有不变性,才能求得总波矢守恒,而晶体只具有对布喇菲点阵的平移不变性,因此总波矢守恒条件会相差一个倒易点阵矢量。
