Effect of ball milling process on the microstructure of titanium-nanohydroxyapatite composite powder 被引量：1

Effect of ball milling process on the microstructure of titanium-nanohydroxyapatite composite powder

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摘要 Titaninm-nanohydroxyapatite （Ti-nHA） composite powders, composed of titanium with 10 vol.% and 20 vol.% of nano-hydroxyapatite, were milled in a planetary ball mill using alcohol media to avoid excessive heat. XRD and SEM were performed for characterization of the microstructure, and the homogeneity of Ti/HA nanocomposite powder was evaluated by EPMA with prolonged ball milling time. The results show that under the condition of wet milling, the grain size of Ti-nHA composite powders is decreased with the increase in ball milling time and the amount of the addition of nHA. While for milling of 30 h, the nanocomposite powder with free structure, which consists of the nano-hydroxyapatite （nHA） particles and titanium （Ti） phase, is obtained. Three stages of milling can be observed from the dement mapping of Ti, Ca, and P by EPMA; meanwhile, it is found that the nHA would be more homogenously distributed after milling for 30 h. Titaninm-nanohydroxyapatite （Ti-nHA） composite powders, composed of titanium with 10 vol.% and 20 vol.% of nano-hydroxyapatite, were milled in a planetary ball mill using alcohol media to avoid excessive heat. XRD and SEM were performed for characterization of the microstructure, and the homogeneity of Ti/HA nanocomposite powder was evaluated by EPMA with prolonged ball milling time. The results show that under the condition of wet milling, the grain size of Ti-nHA composite powders is decreased with the increase in ball milling time and the amount of the addition of nHA. While for milling of 30 h, the nanocomposite powder with free structure, which consists of the nano-hydroxyapatite （nHA） particles and titanium （Ti） phase, is obtained. Three stages of milling can be observed from the dement mapping of Ti, Ca, and P by EPMA; meanwhile, it is found that the nHA would be more homogenously distributed after milling for 30 h.

作者 PANG Pengsha LI Wei LIU Ying

机构地区 Department of Materials Science and Engineering GRIPM Advanced Materials Co. Ltd

出处《Rare Metals》 SCIE EI CAS CSCD 2007年第2期118-123,共6页 稀有金属（英文版）

基金 This work was financially supported by the Science and Technology Key Project of Guangdong Province, China (No.2006B35801001)

关键词 composite materials NANOCOMPOSITES mechanical milling TITANIUM nanohydroxyapatite composite materials nanocomposites mechanical milling titanium nanohydroxyapatite

分类号 TB333 [一般工业技术—材料科学与工程]

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