1) CaCO_3 whiskers
晶须CaCO_3
2) whisker
[英]['wɪskə(r)] [美]['wɪskɚ]
晶须;触须
3) whisker
[英]['wɪskə(r)] [美]['wɪskɚ]
晶须
1.
Research on the preparation of basic magnesium sulfate whisker with organic acid by hydrothermal method;
添加有机酸水热法制备碱式硫酸镁晶须的研究
2.
Preparation of magnesium oxide whisker from basic magnesium sulfate by sintering method;
碱式硫酸镁烧结法制备氧化镁晶须
3.
Antistatic performance of ZnO whisker in polyacrylonitrile(PAN) fiber;
渗入氧化锌晶须的聚丙烯腈纤维的抗静电性
4) whiskers
[英]['wɪskə(r)] [美]['wɪskɚ]
晶须
1.
Preparation procedure and mechanism of micro/nano tungsten oxide whiskers;
微/纳米氧化钨晶须的制备工艺及原理
2.
Preparation of MgO whiskers and investigation on their influence factors;
氧化镁晶须制备及影响因素考查
3.
Phase transformation behavior and growth mechanism of Ti(C,N) whiskers synthesized through carbothermal reduction process;
碳热还原合成Ti(C,N)晶须的相转变行为及生长机理
5) crystal whisker
晶须
1.
Use of crystal whisker material in coatings;
晶须材料在涂料中的应用
2.
The newest study situation of toughening PP by using rubber or elastomer blend,thermoplastic plastics,inorganic rigid particle,nanoparticle and crystal whisker is introduced.
综述近2年增韧PP的最新研究进展,介绍橡胶或弹性体共混增韧、热塑性塑料增韧、无机刚性粒子增韧、纳米粒子增韧及晶须增韧PP的最新研究情况。
6) CaCO3
CaCO_3
1.
Influence of Hyperbranched DHBC with Carboxyl Terminal Groups on the Crystallization of CaCO3;
超支化双亲水性嵌段共聚物对CaCO_3结晶影响的研究
2.
By compounding nano-CaCO3 with polyoxymethylene (POM) , the influence of nano-CaCO3 content, diameter on the mechanical properties, dispersion morphology of POM/nano-CaCO3 composties was investigated.
用纳米CaCO_3填充改性聚甲醛(POM),研究了纳米CaCO_3的含量、粒径对POM/纳米CaCO_3复合体系力学性能、分散形态等的影响。
3.
Polypropylene(PP) and CaCO3 blends were extruded in self-made dynamic capillary rheometer, and the effects of vibrating parameters on the dispersion of CaCO3 in melted PP were studied.
使用自制的毛细管动态流变仪挤出聚丙烯(PP)与CaCO_3混合料,研究了振动参数对CaCO_3在PP中分散效果的影响。
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