1.
Synchronized Survey on the Thermal Dissipation and the Microscopic Structure during Fatigue Damage;
疲劳损伤过程热耗散与微观形貌的同步测量
2.
Very High Cycle Fatigue Behavior and Thermographic Analysis of High Strength Steels Under High Frequency Loading
高频载荷下高强钢的超高周疲劳及热耗散研究
3.
The Research on Radiation Properties and Mechanisms of Heat Dissipation for Ultra High Temperature Ceramic Material;
超高温陶瓷材料的辐射特性及热耗散机制的研究
4.
thermal and energy performance
散热表现及能量消耗
5.
To cause to lose(energy, such as heat) irreversibly.
消耗,使耗散不可逆地失去(能量,如热)
6.
AN APPLICATION OF ENTRANSY DISSIPATION THEORY TO HEAT EXCHANGER DESIGN
(火积)耗散理论在换热器设计中的应用
7.
Design and Optimization of Power and Heat Dissipation in Embedded Computer System;
嵌入式计算机系统功耗散热分析及优化设计
8.
Loss Analysis and Thermal Design of Mid-Voltage & Mine-Used Inverter Main Circuit
中压矿用变频器主电路损耗分析及散热设计
9.
Calculation of heat transfer for cast iron dryer head and its analysis on energy saving and consumption reducing
铸铁烘缸端盖散热计算及节能降耗分析
10.
Application of Thermal Dissipation Probe in the Calculation of Plant Transpiration Water
热扩散式茎流计在测定植物蒸腾耗水中的应用
11.
APPLICATION OF THERMAL DISSIPATION PROBE METHOD IN THE SYUDY OF WATER CONSUMPTION FOR TRANSPIRATION OF TREE SPECIES
热扩散探针法在树木蒸腾耗水研究中的应用
12.
Magneto-Thermo-Elastic Waves in an Infinite Perfectly Conducting Elastic Solid With Energy Dissipation
理想传导弹性体中能量耗散的磁-热-弹性波
13.
Losses Calculation of IGBT Module and Heat Dissipation System Design of Inverters
变频器中的IGBT模块损耗计算及散热系统设计
14.
Latent heat in the heat sink part means that evaporation overwhelmed condensation.
以热量耗散形式出现的潜热意味着蒸发抑制了凝结作用。
15.
At the same time, with (he theory of dissipation structure and the views of the earth mantle hot-pillar has been established the pattern of the cause of formation
同时,用耗散结构理论和地幔热柱观点建立了该区火山成因模式.
16.
Research on Viscous Dissipation and Heat Transfer in Micro Injection Molding;
微注塑成型充模流动中粘性耗散与对流传热研究
17.
Influence of Distributions of Circulation Losses and Iron Losses on Stator Temperature Field and Heat Transfer Coefficient's Calculation of Outer Surface of Insulation
铁耗和环流损耗分布对定子温度场及绝缘外表面散热系数计算的影响
18.
While the benefits of overheating are specific to the module, the cost-heat buildup-is cumulative to the rack that the module resides in, which has a fixed heat dissipation rate.
过热的副作用具体到模块(装备),热量的消耗、产生和堆积在机架的内部有一个固定的散热率。