1) subfacies
亚相
1.
Classifications of the subfacies and microfacies of the hydrothermal sedimentary facies and their characteristics have been approached in the paper.
提出秦岭泥盆纪热水沉积岩相 ,划分了热水沉积岩相的亚相、微相 ,并总结其特征。
2.
0GPa and can be divided into low temperature, medium temperature, hightemperature and ultra-high pressure subfacieses.
0GPa和400~900℃,可进一步划分出低温、中温、高温和超高压等4个亚相。
2) metastable phase diagram
亚稳相图
1.
The structure was investigated by XRD and TEM, combining with the calculated metastable phase diagram.
利用X射线衍射仪及透射电镜对层片状组织进行了相组成的分析 ,并结合计算亚稳相图对该组织的相及组织形成规律进行了分析 ,结果表明在快速凝固条件下Zn 2 %Cu包晶合金中实现共生生长是可能的。
2.
The evolution of solidified microstructures was explained using the peritectic metastable phase diagram.
00)%Cu合金凝固过程中的温度变化和凝固组织的分析,研究了合金成分和凝固条件对包晶合金组织形成的影响规律;并应用包晶合金亚稳相图对包晶合金的凝固组织的演变进行了解释。
4) metastable phase
亚稳相
1.
A further discussion of metastable phase and viscosity for alloy melts;
再论熔体的亚稳相和粘度
2.
Viscosity,metastable phase,phase transition and phase diagram of melts Ⅱ.A discontinuous structure change in melts;
熔体的粘度,亚稳相,相变和相图 Ⅱ.熔体中的不连续结构相变
3.
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
6) Morphology
[英][mɔ:'fɔlədʒi] [美][mɔr'fɑlədʒɪ]
亚微相态
1.
Study and Development on Morphology, Mechanical Properties, and Toughening Mechanism of the Blends based on Polypropylene and Ultrahigh Molecular Weight Polyethylene;
超高分子量聚乙烯增强聚丙烯共混体系的力学性能、亚微相态和增韧机理的研究进展
2.
Compatibilizing Effect of Novolak on Toughness, Crystallite and Morphology of Polyacetal and Nitrile-Butadiene Rubber Blends;
酚醛树脂的增容作用对聚甲醛/丁腈橡胶共混物的韧性、结晶形态和亚微相态的影响
3.
The mechanical properties and morphology of polyoxymethylene (POM) toughened with ionomers were investigated and the compatibilizing effect of methyl methacrylatestyrenebutadiene copolymer (MBS) on POM/ionomer blends was studied.
考察了离聚体增韧聚甲醛(POM)体系及甲基丙烯酸甲酯-苯乙烯-丁二烯共聚物(MBS)增容POM/离聚体共混体系的力学性能和亚微相态。
补充资料:亚相
1.指官位次于丞相的大臣。 2.指继先人而居相位的人。 3.御史大夫的别称。秦汉时,御史大夫为丞相之副,丞相缺人,常以之递升,故唐以后有此别称。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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