... 材料的物理性能 Materials Physic Properties 热物理性能 ThermoPhysical Properties ; Physical Properties 物理性能实验室 Physical Property Lab ...
基于21个网页-相关网页
...;热物性参数;电阻率[gap=1099]Key words: carbon thermal reduction; rare earth silicide alloys; thermophysical properties; specific resistance...
基于16个网页-相关网页
热机械性能.热扩散系数的测定 英文名称: Advanced technical ceramics - Ceramic composites - Thermophysical properties - Determination of thermal diffusivity 页数: 8 采用标准: EN 1159-2-2003,IDT 被替代标准:..
基于8个网页-相关网页
dynamic thermophysical properties 动态热物性能
Thermophysical Properties of Matter Database 热物理性能数据库 ; 材料热物理性能数据库 ; 数据库
variable thermophysical properties 变物性
optical and thermophysical properties 光学和热物理性能
thermophysical properties test 热物性测试
Prode thermoPhysical Properties Generator 计算热力学与热传递的有关问题
thermophysical properties data 热物性实验
nonlinear thermophysical properties 非线性热物理特性
④Two optimization methods of FSPCM plates’ thermophysical properties were presented. One is the steady-state calculation method and the other the transient-state analogue method.
④针对新型FSPCM用作电地暖系统蓄热层时的热物性优化问题,提出了两种优化方法,即稳态计算法和动态模拟法。
参考来源 - 新型聚合物基定形相变材料的制备和应用模拟研究It analyzes he feasibility of R290 as alternative to R22 from thermophysical properties and theory refrigeration cycle.
从R290的热物理性质和制冷循环理论循环两方面分析了R290替代R22的可行性。
参考来源 - 蒸气压缩式制冷装置稳态仿真及分析The crystal structure and thermophysical properties of rare-earth stannate pyrochlores were also investigated. The experimental data of thermal conductivity and average thermal expansion coefficient of rare-earth stannates are 1.92.3 W/(m·K) and 8.39.3×10-6 K-1 (301000℃), respectively.
研究了具有稳定焦绿石结构的稀土锡酸盐体系的晶体结构和热物理性能,发现其1000℃下的热导率为1.92.3W/(m·K),平均热膨胀系数在8.39.3×10-6K-1之间(301000℃)。
参考来源 - 稀土氧化物热障涂层陶瓷材料的缺陷化学及热物理性能It is obvious that its thermophysical properties are concerned with not only material properties and temperature but also its microstructure.
显然,其热物理性能不仅与材料的物性和温度有关,而且还与其微空间结构有关。
参考来源 - 耐火纤维材料的高温热物性研究Photothermal radiometry techniques (PTR) have been proven to be a powerful tool for characterization and nondestructive evaluation (NDE) of thermophysical properties of various materials.
光热辐射技术(PTR)是一种测量材料热物理性质非常有效的无损检测方法。
参考来源 - 光热辐射测量法重建不均匀介质热物理性质的深度轮廓·2,447,543篇论文数据,部分数据来源于NoteExpress
Thermal conductivity is one of the most important parameters of thermophysical properties of materials.
导热系数是材料热物理性质的重要参数之一。
The calculation shows a high accuracy: the error is less than 1% in thermodynamic properties and 4% in thermophysical properties.
计算关联式具有较高的精度,热力学参数计算误差小于1 %,迁移特性参数误差小于4%。
The calculation shows a high accuracy while the error is low than 1% in thermodynamic properties and 4% in thermophysical properties.
计算关联式具有较高的精度,热力学参数计算误差小于1% ,迁移特性参数误差小于4 %。
应用推荐