1) middle crystallization[S
中温晶化
2) crystallization temperature
晶化温度
1.
Effect of crystallization temperature on microstructure and performance of cordierite glass-ceramics;
晶化温度对堇青石玻璃陶瓷结构及性能的影响
2.
Influence of crystallization temperature on amorphous Cr-Fe-C alloy plated layer
晶化温度对非晶态Cr-Fe-C合金镀层的影响
3.
The influences of factors, including aging time,crystallization time and crystallization temperature on the formation of nanoparticle NaY molecular sieve were investigated.
未添加任何添加剂的普通原料,用原位水热法合成出纳米Y型分子筛,讨论了不同的陈化时间,不同的晶化时间以及不同晶化温度对制备纳米Y型分子筛的影响,并考察了纳米Y型分子筛的热稳定性。
3) isothermal annealing
等温晶化
1.
Phase transformation of amorphous alloy (Ni_(0.75)Fe_(0.25))_(73)Nb_5Si_(10)B_(12) during isothermal annealing;
(Ni_(0.75)Fe_(0.25))_(73)Nb_5Si_(10)B_(12)非晶合金的等温晶化与结构转变
4) room-temperature crystallization
常温晶化
1.
Meso-pore zeolite MCM-41 was synthesized by means of microwave crystallization,room-temperature crystallization and hydrothermal crystallization.
分别用微波晶化、常温晶化、水热晶化3种方法合成MCM-41中孔分子筛,详细比较了这3种合成方法在操作参数和所合成分子筛物性方面的差异。
5) low temperature crystallization
低温晶化
1.
We developed a new process for low temperature crystallization of amorphous silicon films, by metal induced crystallization of amorphous silicon films at low temperature.
介绍了一种非晶硅薄膜低温晶化的新工艺———金属诱导非晶硅薄膜低温晶化。
6) isothermal crystallization
等温晶化
1.
By introducing the concept of Avrami exponent nucleation and growth kinetics of Ni-P and Ni-P-D coatings were researched during isothermal crystallization process.
采用金刚石作为复合粒子制备了N i-P-金刚石复合镀层,通过引入晶化方式指数的概念,研究了N i-P镀层和N i-P-金刚石复合镀层的等温晶化过程的形核和长大动力学。
2.
Employing differential scanning calorimetry (DSC) and transmission electron microscopy (TEM), the isothermal crystallization process and precipitated phases of Zr41.
5 (at%)大块非晶合金的等温晶化 过程和析出相进行了研究。
3.
5Fe80NbB6 melt-spun ribbons,after isothermal crystallization processes at 943,973 and 1003 K,was studied.
5Fe80Nb1B6非晶快淬薄带在943,973和1003 K等温晶化与薄带组织和矫顽力的关系。
补充资料:多晶莫来石晶须(纤维)
分子式:
CAS号:
性质:莫来石相为主晶相的多晶纤维。化学成分为Al2O3 72%~77%,SiO222%~17%,B2O3 3%~5%,P2O51.5%~3.0%。纤维直径2~7μm,纤维长度20~125μm。使用温度1350℃。多采用溶胶-凝胶法制造。主要用作补强填料,也可作为轻质、隔热保温材料使用。
CAS号:
性质:莫来石相为主晶相的多晶纤维。化学成分为Al2O3 72%~77%,SiO222%~17%,B2O3 3%~5%,P2O51.5%~3.0%。纤维直径2~7μm,纤维长度20~125μm。使用温度1350℃。多采用溶胶-凝胶法制造。主要用作补强填料,也可作为轻质、隔热保温材料使用。
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