Porous magnesium has obvious advantages as bone tissue engineering biomaterial.
多孔镁作为骨组织工程材料具有明显的优势。
The problems in preparation of medical porous magnesium alloys by powder metallurgic method were formulated.
阐述了粉末冶金法制备医用多孔镁合金工艺中存在的问题。
The porous magnesium with different porosity was modified by alkali-heat-treatment and the samples were compared after soaked in the SBF solution.
采用碱热处理法对不同孔隙率的多孔镁表面进行改性,并将碱热处理处理后的试样置于SBF溶液中浸泡对比。
The spatial distribution of pores on cross section of lotus-type porous magnesium has been studied with second-order characteristics, nearest-neighbour distribution, etc.
采用统计分析方法,通过平面气孔分布的二阶特性、气孔最邻近距离分布等分析了藕状多孔镁横截面上气孔的分布,结果表明气孔呈近程有序排列。
In order to prepare high quality porous magnesium alloys materials, massive pores must exist in the alloys, the crystal grains of the alloy's skeleton should be refined as well.
在保证医用多孔镁合金具有大量孔隙的同时,使材料骨架部分的晶粒细化,才能制备出高质量多孔镁基合金材料。
In order to prepare high quality porous magnesium alloys materials, massive pores must exist in the alloys, the crystal grains of the alloy's skeleton should be refined as well.
在保证医用多孔镁合金具有大量孔隙的同时,使材料骨架部分的晶粒细化,才能制备出高质量多孔镁基合金材料。
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