1) melt-spun ribbon
熔体快淬薄带
2) melt
熔体
1.
Decomposition Behavior of HFC-134a on the Heated Magnesium and Magnesium Alloy Melt Surface;
HFC-134a气体在保护镁及合金熔体过程中的分解行为
2.
High temperature Raman spectra and micro-structure of Bi_4Ge_3O_(12) crystal and its melt;
Bi_4Ge_3O_(12)晶体及其熔体结构的高温拉曼光谱研究
3.
Effect of Sn content on the structural properties of the Bi-Sn alloy melt;
Sn的质量分数对Bi-Sn合金熔体结构的影响
3) melts
熔体
1.
Viscosity,metastable phase,phase transition and phase diagram of melts Ⅰ.The theory on viscosity and metastable phase for melts;
熔体的粘度,亚稳相,相变和相图 Ⅰ.熔体的粘度理论和亚稳相
2.
Combining with reported vibrational spectra, X-ray and MD simulation work of the carbonates, the structure characteristics of the carbonate melts and different effects on the vibrational behavior which is due to the alkali cations were discuss.
报导了用高温激光Raman光谱仪测定了不同温度 (至 1 2 73K)下固体和熔融态的Li2 CO3、Na2 CO3和K2 CO3的Raman光谱 ,分析了CO2 -3 对称伸缩振动模随温度升高的波数移动情况和半高宽的变化 ,结合前人的振动光谱和X射线测试结果以及分子动力学模拟工作 ,讨论了碳酸盐熔体的结构特征 ,以及不同的碱金属离子对碳酸根离子的振动造成的不同影
3.
The melts of smelting reduction with iron bath has peculiar behaviour for high concentration and high reduction rate of FeO.
铁浴式熔融还原熔渣内FeO浓度高,使熔体的组成和性能具有特殊的行为。
4) In melt
In熔体
1.
The structure of In melt was studied at 280℃, 390℃, 550℃, 650℃, 750℃ respectively by using an elevated temperature Xray diffractometer.
利用高温液态金属X射线衍射仪在280℃、390℃、550℃、650℃、750℃研究了In熔体的结构。
5) melt temperature
熔体温度
1.
Prediction of Injection Pressure and Melt Temperature of Injection Molding by Radial Basis Function Network;
基于神经网络技术的注塑成型注射压力和熔体温度预测
2.
Effects of Melt Temperature on Solidified Structure of Sn-Sb Peritectic Alloy in Ultrasonic Field;
超声场下熔体温度对SnSb合金凝固组织的影响
3.
The stress distribution of polycarbonate injection molded parts is tested by the photo-elastic experiment under different gate type and different melt temperature,and the tensile strength and luminous transmittance are tested.
用光弹实验测试不同浇口类型、不同熔体温度下聚碳酸酯透明注塑制品的应力分布,并测试了制品的拉伸强度和透光率。
6) melt strength
熔体强度
1.
Development of high melt strength polypropylene;
高熔体强度聚丙烯的研制
2.
Increasing melt strength of polypropylene via reactive extrusion;
通过反应挤出提高聚丙烯的熔体强度
3.
Study on preparation of polypropylene with high melt strength;
高熔体强度PP的制备研究
参考词条
补充资料:快淬磁体
分子式:
CAS号:
性质:经真空熔炼成的Nd-Fe-B永磁合金,以熔融状态处在惰性气氛保护的石英坩埚中,当在压力作用下经过容器底部细孔喷射到高速旋转的水冷铜辊的外缘上,以105~106℃/S速度冷却,形成非晶态或微晶的窄薄带,再制成粉,由此制成的磁体称为快淬磁体。有利于生产过程自动化、连续化;产品内禀矫顽力及磁化强度都很高,缺点磁能积较低,一般60~80kJ/m3(8~10MGOe)。
CAS号:
性质:经真空熔炼成的Nd-Fe-B永磁合金,以熔融状态处在惰性气氛保护的石英坩埚中,当在压力作用下经过容器底部细孔喷射到高速旋转的水冷铜辊的外缘上,以105~106℃/S速度冷却,形成非晶态或微晶的窄薄带,再制成粉,由此制成的磁体称为快淬磁体。有利于生产过程自动化、连续化;产品内禀矫顽力及磁化强度都很高,缺点磁能积较低,一般60~80kJ/m3(8~10MGOe)。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。