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浅析造孔剂含量控制对生物多孔钛材的影响 被引量:3
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作者 张玮 尚青亮 +2 位作者 刘捷 周林 杨刚 《云南冶金》 2016年第2期109-113,131,共6页
以碳酸氢铵为造孔剂,TiH_2粉为原料采用粉末冶金法,经过粉末混合、粉末压制、脱脂制备生物多孔钛材。研究碳酸氢铵(质量分数:0%、10%、20%、30%)对制备生物多孔钛材的孔隙率、孔径分布和屈服强度的影响。结果表明,碳酸氢铵在10%时,... 以碳酸氢铵为造孔剂,TiH_2粉为原料采用粉末冶金法,经过粉末混合、粉末压制、脱脂制备生物多孔钛材。研究碳酸氢铵(质量分数:0%、10%、20%、30%)对制备生物多孔钛材的孔隙率、孔径分布和屈服强度的影响。结果表明,碳酸氢铵在10%时,多孔钛孔隙率为32.4%,100~200μm的孔径约占面积总量的80%以上,屈服强度为208.1 MPa。 展开更多
关键词 生物多孔钛材 粉末冶金 TiH2 碳酸氢铵 孔隙率
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Mechanical properties and pore structure deformation behaviour of biomedical porous titanium 被引量:6
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作者 王晓花 李金山 +1 位作者 胡锐 寇宏超 《Transactions of Nonferrous Metals Society of China》 SCIE EI CAS CSCD 2015年第5期1543-1550,共8页
Porous titanium has been shown to exhibit desirable properties as biomedical materials. In view of the load-bearing situation, the mechanical properties and pore structure deformation behaviour of porous titanium were... Porous titanium has been shown to exhibit desirable properties as biomedical materials. In view of the load-bearing situation, the mechanical properties and pore structure deformation behaviour of porous titanium were studied. Porous titanium with porosities varying from 36%-66% and average pore size of 230 μm was fabricated by powder sintering. Microstructural features were characterized using scanning electron microscopy. Uniaxial compression tests were used to probe the mechanical response in terms of elastic modulus and compressive strength. The mechanical properties of porous titanium were found to be close to the those of human bone, with stiffness values ranging from 1.86 to 14.7 GPa and compressive strength values of 85.16-461.94 MPa. The relationships between mechanical properties and relative densities were established, and the increase in relative density showed significant effects on mechanical properties and deformations of porous titanium. In a lower relative density, the microscopic deformation mechanism of porous titanium was yielding, bending and buckling of cell walls, while the deformation of yielding and bending of cell walls was observed in the porous titanium with higher relative density. 展开更多
关键词 BIOMATERIALS porous titanium mechanical properties pore structure deformation behaviour
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