1) shock wave crystallization
激波晶化
1.
It was found that the shock wave crystallization is very close to 100%,though the period of crystallization is only about 10~(-6)~10~(-9)s.
结果表明,尽管激波晶化时间极短,却具有极高的转变速率,晶化时间仅为退火晶化时间的10-6~10-9,晶化度却接近100%。
2.
It is found that shock wave crystallization is very perfect (fraction crystallized is very close to 100%)though the period of crystallization is very short ,only about 10-6 ~10-8 of annealing′s.
应用升温、等温和重复加热的DSC技术,对几种非晶合金的激波晶化和退火晶化作了对比研究。
3.
Compared themwith the shock wave crystallization of Fe-B-Si and Fe-Mo-B-Si alloy, it was found that the finery effect of crystal size, the ability of preventing the growth of crystal and stabilization of the non-crystalline state produced by addition of element Cu and Nb are lost.
应用XRD, DSC及TEM等技术,将FINEMET非晶合金的激波晶化与退火晶化及不含Cu,Nb的Fe-B-Si和Fe-Mo-B-Si合金的激波晶化作了对比研究结果表明,该合金的激波晶化除了具有极高的转变速率和相当完全的晶化度外,合金元素Cu和Nb在退火晶化时具有的细化晶粒、阻止晶粒长大和稳定非晶态的三个作用均失效了采用激波作用下非晶固体转变成流体状态的模型可以定性地解释这一现
2) shock wave nanocrystallization
激波纳米晶化
3) laser crystallization
激光晶化
1.
Electron field emission of nanocrystalline Si prepared by laser crystallization;
激光晶化形成纳米硅材料的场电子发射性质研究
2.
By laser crystallization, nanocomposite permanent magnetic-materials Nd2Fe14B/Fe3B were attained.
尝试用激光晶化法制备纳米双相Nd2Fe14B/Fe3B永磁体。
3.
A novel technique of two step XeCl laser crystallization for the growth of poly Si thin film on glass substrate was investigated.
采用两步激光晶化方法制备了多晶硅薄膜 ,其晶粒尺寸达到 1 。
4) laser-induced crystallization
激光晶化
1.
Mean-while, the latest progress about the laser-induced crystallization of amorphous silicon thin film is introduced in detail.
激光晶化是一种制作晶硅薄膜器件(如薄膜晶体管、太阳能电池)很有效的技术。
5) microwave crystallization
微波晶化
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。
6) crystallization wave
晶化波
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