Bioglass is one of the most important inorganic biomedical materials.
生物玻璃是重要的无机生物医用材料之一。
Porous bioglass material was prepared by attempting to add pore former .
尝试采用添加造孔剂的方法制备了多孔生物玻璃材料。
PURPOSE: To analyse the results of using Bioglass to repair alveolar cleft.
目的:观察人工骨修复材料-倍骼生治疗牙槽突裂的临床效果。
Objective To observe the clinical effect of Bioglass used in the treatment of RAU.
目的观察生物活性玻璃微粒应用于复发性口腔溃疡治疗的疗效。
Objective to evaluate the cytotoxicity of a novel porous bioglass BG-20 as scaffolds.
目的对生物玻璃BG 2 0多孔支架进行细胞相容性研究。
The porous hydroxyapatite-bioglass duplex ceramic was prepared by the dipping method with polymer foam.
采用有机泡沫浸渍法制备羟基磷灰石-生物玻璃多孔复相陶瓷。
Bioglass - ceramic is a kind of biomaterial with great prospect, its investigation is very active in the word.
生物微晶玻璃是很有前途的一类生物材料,各国对其研究非常活跃。
Results Bioglass can reduce the pain of ulcer greatly and make the ulcer heal more rapid than traditional drugs do it.
结果生物活性玻璃微粒可明显减轻口腔溃疡的疼痛并可使溃疡愈合加快。
The results showed that phosphate bioglass binder could form liquid phase to promote the materials sintering and reduce the sintering temperature.
结果表明磷酸盐生物玻璃粘接剂能形成液相而促进材料烧结,降低烧结温度。
Bioglass is one of the most important inorganic biomaterial. It has good bioactivity and biocompatibility. Its investigation is very active in the world.
生物玻璃是重要的无机生物医用材料之一,具有良好的生物活性和生物相容性,各国对其研究非常活跃。
The technology of preparing Hydroxyapatite (HA) - Bioglass (BG) compound coating on a non-line-sight titanium alloy substrate was realized by electrophoretic deposition (EPD).
采用电泳沉积工艺,在非线性形状金属表面成功制备出了羟基磷灰石(HA)—生物玻璃(BG)复合涂层。
The technology of preparing Hydroxyapatite (HA) - Bioglass (BG) compound coating on a non-line-sight titanium alloy substrate was realized by electrophoretic deposition (EPD).
采用电泳沉积工艺,在非线性形状金属表面成功制备出了羟基磷灰石(HA)—生物玻璃(BG)复合涂层。
应用推荐