碳磷灰石
- 网络carbonate-apatite;Zn-CHA;Dahllite;carbonate apatite
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钛基富钙SiO2薄膜仿生诱导沉积碳磷灰石涂层
Biomimetic Deposition of Carbonated Hydroxyapatite Coating by Calcium Enriched Silica Films Based on Titanium
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碳磷灰石(CHA)具有良好的生物相容性和生物活性,是一种极具吸引力的骨替代材料。
Carbonated hydroxyapatite ( CHA ) has excellent biocompatibility and bioactivity , so it 's considered to be the best bone substitute .
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模拟体液浸泡7d后,涂层表层形成一层碳磷灰石。Ti粉的加入明显提高了涂层的结合强度,又不降低涂层的生物活性。
HA / Ti composite coating surface was covered by carbonate-apatite coating after immersion in simulate body fluid for 7 days , indicating that the Ti addition in HA coating improved greatly the bonding strength while not decreasing the bioactivity of the coating .
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所制备的SiO2薄膜在1.5倍模拟体液中浸泡10d后其表面迅速形成由球状碳磷灰石(CHA)颗粒组成的沉积层,说明SiO2薄膜具有良好的生物活性。
After immersing the silica films in simulated body fluid ( 1.5SBF ) for 10 d , the rapid depositon of spherical carbonated hydroxyapatite ( CHA ) on the surface of the films showed that the bioactivity of silica films was very good .
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相同样品的X衍射(XRD)结果也与这一结论相吻合,证明海水养殖珍珠中存在碳羟磷灰石。我国海水养殖珍珠业存在的问题及对策
X-Ra y Diffraction ( XRD ) analysis of the same sample came to the same conclusion . The Problems and Countermeasure in the Pearl Industry of Seawater in China
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碳羟磷灰石(CHAP)对废水中Cd~(2+)的吸附研究
The study on adsorption of Cd ~ ( 2 + ) by carbonate hydroxylapatite in wastewater
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采用废弃的鸡蛋壳为主要原料,制备碳羟磷灰石(CHAP)吸附剂,以去除废水中的Cd2+。
Carbonate hydroxylapatite ( CHAP ), prepared from eggshell wastes , was used to remove Cd ~ 2 + from simulated wastewater .
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对碳羟磷灰石(CHAP)固定水溶性F-的影响因素进行了较为系统的实验研究。
In this paper , the factors affecting the adsorption of aqueous F - on the carbonate hydroxyapatites ( CHAP ) are investigated .
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以废弃蛋壳为原料、尿素为添加剂,采用掺杂技术制备碳羟磷灰石(CHAP),并用其作吸附剂去除水中的Cu2+。
Carbonate hydroxylapatite ( CHAP ) was prepared by doping technology using abandoned eggshell as material and urea as additive . The product was used as adsorbent to remove Cu ~ 2 + from water .
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用溶胶-凝胶法法合成了具有不同Ca/P摩尔比的羟基磷灰石(HAP)和不同CO2-3含量的碳羟磷灰石(CHAP);
The hydroxyapatite ( HAP ) with different molar ratios ( R ) of Ca to P and the carbonate hydroxyapatite ( CHAP ) with different CO 2 - 3 contents ( w CO 2 - 3 ) were prepared by a Sol-Gel process . DTA ? TG ?
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碳羟磷灰石吸附水溶液中镉离子的动力学研究
Kinetic research on the absorption of aqueous cadmium on carbonate hydroxyapatite
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碳羟磷灰石对废水中铅离子吸附研究
Study on the Adsorption of Pb ~ ( 2 + ) in Wastewater by Carbonate Hydroxyapatite
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碳羟磷灰石结晶习性对吸F~-容量的控制及其机理
Controlling for crystal habit of carbonate hydroxyapatite on capacities absorbing f ~ - and its mechanism
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碳羟磷灰石的制备及其对水中Cu~(2+)的吸附
Preparation of Carbonate Hydroxylapatite and Its Adsorptive Capacity to Cu ~ ( 2 + ) in Water
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采用模板诱导仿生合成法、均相沉淀法和溶胶-凝胶法分别制备了片状、晶须状和等粒状长柱状碳羟磷灰石。
Flakes , whisker and equal grain long cylinder carbonate hydroxyapatite ( CHAP ) were synthesized through template mediated biomimetic synthesis , homogeneous precipitating and sol-gel method respectively .
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目的探讨引导组织再生性复合膜-纳米碳羟磷灰石/胶原/聚乳酸羟基乙酸复合膜(nCHAC/PLGA)在体外的生物降解行为。
Objective The objective of this paper was to investigate the in vitro biodegradation of a guided tissue regeneration composite membrane , nano-carbonated hydroxyapatite / collagen / poly ( lactic-co-glycolic acid ) ( nCHAC / PLGA ) .