1) specific heat at constant temperature
定温比热
2) low temperature specific heat
低温比热
1.
The graphite hydrogen sulfate intercalation compound was prepared with H 2O 2 chemical oxidation preparation method and KMnO 4 H 2O 2 oxidation methods, and the physical properties of graphite hydrogen sulfate intercalation compounds are investigated in detail through XRD analysis, thermal analysis, and the analyses in respect of IR spectra, conductivity and low temperature specific heat.
通过在过氧化氢化学氧化法和 K Mn O4 -H2 O2 氧化法制备硫酸石墨插层化合物的基础上 ,详细讨论了其物理性质 ,如物相分析、热分析、红外谱图分析、导电性和低温比热的性质等。
2.
In this paper, we report the results of electrical-resistivity, low temperature specific heat, superconductivity and critical magnetic field measurements for the Zr-based bulk metallic glasses (BMGs) and its corresponding crystallized sample.
本文对Zr基块体金属玻璃(BMG)及其晶化样品的电阻率、低温比热、超导电性和上临界场特性进行了研究。
3.
The low temperature specific heat measurement was carried out under different magnetic fields.
对样品低温比热的研究发现,不加磁场时比热中存在着异常大的电子比热线性贡献,这种反常电子比热与样品的宏观导电性是相矛盾的。
3) low-temperature specific heat
低温比热
1.
A large difference between Dybye temperatures obtained by ultrasonic measurement and fitting of low-temperature specific heat is interpreted.
解释了超声测量得到的德拜温度和低温比热拟合结果之间的巨大差异 。
4) specific heat
低温比热
1.
Using spin wave theory and the equation of motion technique for the Green function,specific heat of ferromagnetic antiferromagnetic double layers at low temperature is investigated.
应用线性自旋波的理论和格林函数运动方程技术,利用数值计算的方法得到铁磁-反铁磁双层系统的低温比热。
5) adiabatic film cooling effectiveness
绝热温比
1.
Results show that blowing rate is an important factor,the adiabatic film cooling effectiveness is enhanced with the increase of the blowing rate.
应用SSTk-ω湍流模型,对三维粘性掺混流场进行了数值模拟,得到了切向入射的超声速气膜在不同吹风比和冷却通道下的绝热温比分布。
2.
Results show that blowing rate is an important factor, along with the increase of which, the adiabatic film cooling effectiveness is enhanced.
应用SSTk-ω湍流模型,对三维粘性掺混流场进行了数值模拟,得到了切向入射的超声速氢气膜在不同吹风比和被冷却面上的绝热温比分布,并通过冷却剂分布情况详细研究了其形成原因。
6) adiabatic wall film cooling effectiveness
绝热温比
1.
The effects on the adiabatic wall film cooling effectiveness and the film cooling heat transfer coefficients of hole pitch-to-diameter ratios(from 3.
5)对热侧壁面绝热温比和换热系数的影响规律。
补充资料:爱因斯坦模型(见晶格比热)
爱因斯坦模型(见晶格比热)
Einstein model
爱因斯坦模型Einstein model见晶格比
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条