1) superfine calcium phosphate
超细磷酸钙
1.
Using the laser diffraction size analyzer to measure the particle-size of superfine calcium phosphate, the effects of different measurement condition on the particle-size of superfine calcium phosphate are researched .
探讨了在用激光粒度分析仪测定超细磷酸钙粒度过程中 ,不同测试条件对超细磷酸钙粒度测试结果的影响。
2) ultrafine β-tricalcium phosphate
超细β-磷酸三钙
1.
The vitro and vivo degradation behaviors of the poly(L-lactide)/ultrafine β-tricalcium phosphate composite are investigated.
将注射成型的聚-L-乳酸/超细β-磷酸三钙(PLLA/超细β-TCP)复合材料圆棒(=4。
3) Ultrafine CaCO3
超细碳酸钙
1.
In order to improve the grafting and coating of polymer on ultrafine CaCO3 particles, the anchoring of 4,4’-azobis(4-cyanopentanoic acid) (ACPA) onto ultrafine CaCO3, and dispersion polymerization of methyl methacrylate (MMA) in the presence of CaCO3 anchored with azo initiator were investigated.
为了提高聚合物在超细碳酸钙粒子表面的接枝和包覆,对超细碳酸钙锚固偶氮引发剂及甲基丙烯酸甲酯(MMA)/改性碳酸钙原位分散聚合进行了研究。
2.
The effect of ultrafine CaCO3 and compatibilizer on the structures and properties of poly(butylene adipate-co-terephthalate) was investigated.
超细碳酸钙被用于改性PBAT(聚己二酸/对苯二甲酸丁二酯)。
4) ultra-fine calcium carbonate
超细碳酸钙
1.
To develop the methods of preparing this kind of ultra-fine calcium carbonate is a new trend in calcium carbonate production recently.
多孔性超细碳酸钙由于其独特的内部结构和表面特性,在橡胶、纸张、涂料、油墨、医药、日用品中有着广泛的用途。
2.
Surface modification of ultra-fine calcium carbonate(UCaCO_3) particle was carried out with water soluble compound of lanthanum(La~3~+),and UCaCO_3 particle covered with a film of La~3~+ was prepared.
将水溶性镧化物(La3+)对超细碳酸钙粒子(UCaCO3)进行表面改性,制得表面覆盖了镧化物分子层膜的UCaCO3微粉(UCaCO3 La3+),并采用共混填充法制备了PP/POE/UCaCO3和PP/POE/UCaCO3 La3+复合材料。
3.
The filled SBR powder was prepared by co-precipitation with polyelectrolyteas encapsulant,ultra-fine calcium carbonate as filler.
填充型粉末SBR以高分子电解质为包覆剂,以超细碳酸钙为填充剂通过共沉法制成,在适当的反应条件下其粒径≤0。
5) superfine calcium carbonate
超细碳酸钙
1.
Preparaion of superfine calcium carbonate and calcium hydrosulfide from waste gypsum
废石膏制取超细碳酸钙和硫氢化钙
2.
The process and characteristics of the agitated continous bubbling carbonation for producing superfine calcium carbonate are introduced.
介绍了连续鼓泡碳化法生产超细碳酸钙工艺流程及特点。
3.
Unreacted gas from the urea production process is used as a carbonizing gas to co produce superfine calcium carbonate by continuous bubbling carbonation.
以尿素生产过程的未反应气为碳化气,采用连续鼓泡碳化法联产超细碳酸钙,使传统的氮肥工业与新兴的纳米产业实现联合生产,这对提高尿素转化率、简化尿素生产流程、降低能耗,同时联产高附加值的超细碳酸钙,具有广阔的应用前景。
6) super-fine calcium carbonate
超细碳酸钙
1.
Study on mechanism of carbonation of super-fine calcium carbonate;
超细碳酸钙的碳化机理探讨
2.
Study on mechanism of carbonation of super-fine calcium carbonate with high pure CO_2;
高纯度二氧化碳生产超细碳酸钙的碳化机理
3.
Carbonation process of interval bubbling carbonation method to produce super-fine calcium carbonate is a four phases slurry reaction process.
间歇鼓泡碳化法生产超细碳酸钙的碳化过程是一个四相浆态反应过程。
补充资料:磷酸二钙 ,磷酸氢钙
药物名称:磷酸氢钙
英文名:Calcium Hydrogen Phosphate
别名: 磷酸二钙 ,磷酸氢钙
药理作用及用途:
维持神经肌肉的正常兴奋性,能改善细胞膜的通透性,增加毛细血管壁的致密性,使渗出减少,起抗过敏作用。
用于抗过敏,也可用于镁中毒、氟中毒的解放。
适应症: 为补钙剂。能促进骨骼和牙齿的钙化,补充钙质的不足。也可配合体液电解质输液应用,以提高血钙浓度具有一定的消炎、消肿和抗过敏作用。
用量用法: 口服:每次0.6~1.8g,每日3次。
不良反应: 可引起便秘。
规格: 片剂:0.3g/片。
类别:调节水、电解质及酸碱平衡药
英文名:Calcium Hydrogen Phosphate
别名: 磷酸二钙 ,磷酸氢钙
药理作用及用途:
维持神经肌肉的正常兴奋性,能改善细胞膜的通透性,增加毛细血管壁的致密性,使渗出减少,起抗过敏作用。
用于抗过敏,也可用于镁中毒、氟中毒的解放。
适应症: 为补钙剂。能促进骨骼和牙齿的钙化,补充钙质的不足。也可配合体液电解质输液应用,以提高血钙浓度具有一定的消炎、消肿和抗过敏作用。
用量用法: 口服:每次0.6~1.8g,每日3次。
不良反应: 可引起便秘。
规格: 片剂:0.3g/片。
类别:调节水、电解质及酸碱平衡药
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