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1)  magnetic bioactive glass-ceramics
磁性生物活性玻璃陶瓷
1.
Novel magnetic bioactive glass-ceramics (MGC) in the system MgO-CaO-SiO_2-P_2O_5-CaF_2- MnO-ZnO-Fe_2O_3 were synthesized by doping Mn-Zn ferrite in apatite-wollastonite glass-ceramics (A- WGC).
在磷灰石/硅灰石生物活性玻璃陶瓷(A-WGC)中掺杂锰锌铁氧体,制备出一种新型的磁性生物活性玻璃陶瓷,并研究了不同制备工艺对其磁性和生物活性的影响。
2)  magnetic bioactive glass-ceramicss
磁性生物玻璃陶瓷
1.
Magnetic biological glass-ceramics are the normal mixed systems containing magnetic elements, such as iron, composed biological glass-ceramic, which are similar to the human body structure and nature of the organization of biological materialsBy virtue of their distinguish functions,the magnetic bioactive glass-ceramicss have been a highpoint of the relevant new material researches.
磁性生物玻璃陶瓷主要指具有磁性的元素,如铁等引入到生物玻璃陶瓷中,制备出结构和性质类似于人体组织的生物材料,因其独特的功能成为近来新材料研究的热点。
3)  bioactive glass-ceramic
生物活性玻璃陶瓷
1.
Apatite-wollastonite bioactive glass-ceramic (AW GC) has high biocompatibility and bioactivity and better mechanical properties.
AW生物活性玻璃陶瓷不但具有良好的生物活性和生物相容性,还有着较好的力学性能。
4)  bioactive glass ceramics
生物活性玻璃陶瓷
1.
Objective To study the histological changes and ultramicroscopic structure differences between primary bioactive glass ceramics(BGC) and that implanted in mandible as bone substitute for 8~10 years.
目的 研究生物活性玻璃陶瓷 (BGC)人工骨植入下颌骨缺损远期的组织学及超微结构变化。
2.
Objective:The purpose of this study was to investigate the biocompatibility of the bioactive glass ceramics (BGC) combined with cultured periosteal-derived osteoblasts(POBs) in vitro, and to select a favorable scaffold for bone tissue engineering.
目的:探讨多孔状生物活性玻璃陶瓷(bioactive glass ceramics,BGC)与体外培养扩增的兔骨膜源性成骨细胞(periosteal-derived osteoblasts,POBs)的生物相容性,为骨组织工程载体材料的选择提供依据。
5)  bioactive glass ceramics(BGC)
生物活性玻璃陶瓷(BGC)
6)  A-W bioactive glass-ceramics
A-W生物活性玻璃陶瓷
补充资料:可机械加工生物活性玻璃陶瓷
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性质:可用普通加工机械进行机械加工的生物活性玻璃陶瓷。其典型的组成为:30%~50%SiO2+3%~30%B2O3+10%~20%Al2O3+4%~23%K2O+4%~10%F,以及10%~29%CaO和2%~9%P2O5。结构中含有呈板条状或柱状的云母晶体,相互交错地分布于玻璃基质中,将基体分割为无数封闭或半封闭的多面体,机械加工所引入的微裂纹将沿云母的解理面传播,并被多面体所阻滞,从而防止了材料破裂,使其可机械加工;均匀分布的磷灰石结晶相,赋予材料以生物活性。用于制作形态复杂的骨修复体、牙种植体和牙冠等,缺点是脆性较大。

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