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RISS 인기검색어
- 검색키워드
- 저자 : Ruy Jae-Gyeoung (검색결과 3 건)
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NaOH처리와 SBF침적에 따른 CP-Ti, Ti-6Al-4V 및 ECAP-Ti의 표면 아파타이트 성장
오석진,류재경,이승우,김윤종,한만소,김창규,Oh Seok-Jin,Ruy Jae-Gyeoung,Lee Seung-Woo,Kim Yun-Jong,Han Man-So,Kim Chang-Hyu 한국재료학회 2004 한국재료학회지 Vol.14 No.12
Even though Ti-6Al-4V has gained popularity as an implant material, the possible dissolution of Al and V ions in body fluids remains a matter of concern. Though commercially pure Ti (Cp-Ti) overcomes this problem, the mechanical strength of pure titanium remains very low. Thus, in this experiment Cp-Ti was processed by Equal channel angular processing (ECAP), in order to increase the mechanical strength. The biocompatibility of ECAP-Ti, Cp-Ti and Ti-6Al-4V was examined by the apatite formation on each sample surface, after treating the surface with 5M NaOH and soaking in Simulated body fluids (SBF). Initially, the samples were mechanically polished on silicone carbide paper (#2000). The polished samples were treated with 5M NaOH solution at $60^{\circ}C$ for 24 hours. The NaOH treated samples were washed gently with distill water and dried at $40^{\circ}C$ for 1 day. The dried samples were heat treated in air at $600^{\circ}C$ for 1 hour. The surface morphology of these samples were studied using SEM and XRD. The SEM studies showed network of pores in all samples. The XRD showed oxide layer formation on Cp-Ti and Ti-6Al-4V. samples. However the oxide layer in ECAP-Ti was not substantial. These samples were immersed in SBF, kept at $36.5^{\circ}C$ for seven days period. At the end of 7 days, the apatite formation was confirmed only on Cp-Ti and was not observed in Ti-6Al-4V and ECAP-Ti. These observations of apatite formation relate to the fact that Cp-Ti showed greater oxide layer than other samples. The apatite examined was confirmed as tricalcium phosphate (TCP) using EDS and XRD.
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입자크기를 달리한 Cp-Ti의 미세구조 관찰 및 SBF하에서의 부식거동
이승우,김윤종,류재경,박중근,김원수,김택남,Lee Seung-Woo,Kim Yun-Jong,Ruy Jae-Gyeoung,Park Joong-Keun,Kim Won-Soo,Kim Taik-Nam 한국재료학회 2005 한국재료학회지 Vol.15 No.9
Titanium and Titanium alloys are widely used as an orthopedic and dental implant material because of their excellent biocompatibility and mechanical strength. In this study, ECAP Cp-Ti and Cp-Ti were heat treated for different annealing time of 30 min, 90 min and 3 hours. The grain size for each condition was studied. The micro-Vicker hardness test was carried out f3r each different heat treated samples. The micro-Vicker hardness test for ECAP Cp-Ti, Cp-Ti and Cp-Ti (3hr) revealed hardness values of 239.5, 182 and 144 Hv, respectively. The grain size was increased from approximately $70{\mu}m\;to\;300{\mu}m$ with the increase in heat treatment time from 30 min to 3 hours. The heat treated samples were tested for their biocompatibility in simulated body fluid (SBF) and corrosion rates was determined using Polarization Curve test (PCT). The PCT results showed Cp-Ti with comparatively high corrosion potential of -0.18 V and corresponding corrosion current of $2\times10^{-6}$ A, while the corrosion rate in ECAP Cp-Ti and Cp-Ti (30 min annealed) showed very similar results of corrosion potential about -0.47 V with corresponding corrosion current of $7\times10^{-8}$ A.
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NaOH 처리한 Fe 첨가된 Ti alloys의 아파타이트 형성관찰
이승우,김윤종,류재경,김택남,Seung-Woo Lee,Yun-Jong Kim,Jae-Gyeoung Ruy,Taik-Nam Kim 배재대학교 공학연구소 2004 공학논문집 Vol.6 No.2
현재까지 사용되어가지고 있는 임플란트 재료 중 commercially pure titanium (순수티탄; Cp-Ti)과 Ti-alloy들은 생체재료로 폭넓게 사용되어지고 있는데, Ti 금속들은 경도가 강하고 점도가 높기 때문에, 치과나 정형외과 등의 하중에 잘 견디는 곳에 이용되어지고 있다고 한다. 이것들은 생체적합성과 부식에 대한 저항성도 좋은 것으로 알려져 있다. 일반적으로 Ti은 4종류의 Grade로 강도의 차이에 의하여 분류되고 Ti의 강도에 영향을 미치는 것으로는 산소, 철, 질소등이 있다. 따라서 본 연구에서는 O와 Fe의 함량을 달리한 Ti alloy시편을 사용하여 생체적합성 실험을 하였다. 먼저 실험은 시편을 micropolishing하고 5M NaOH에서 $60^{\circ}C$에서24시간 처리하여서 비표면적을 넓혔으며, 표면의 $TiO_2$을 만들어주기 위하여 $600^{\circ}C$에서 열처리하였다. 그런 시편을 $36.5^{\circ}C$의 SBF에 넣어 1~14일까지 침적한 후에 표면에 형성된 apatite를 SEM과 EDAX로 조사하였다. 조사 결과 모든 시편에서 apatite가 생성되었지만, 시편의 조성에 따라서 apatite의 형성양이 다름을 확인하였다. Metals, ceramics and polymers are widely used as bioimplant materials. However, Ti and Ti alloys are widely used because of its high strength to weight ratio and good biocompatibility when implanted in the body. In this experiment, Ti alloys of Grade-4 (gr4), 0.2 wt % Fe, 0.5 wt % Fe and 2 wt % Fe were studied for their surface morphology and HAp forming ability on the metal substrate for different treatments. Intially, the samples were mechanically polished on silicone carbide paper (No.-2000). The polished samples were treated with 5M NaOH solution at $60^{\circ}C$ for 24 hours. The NaOH treated samples were washed gently with distill water and dried at $40^{\circ}C$ for 1 day. The dried samples were heated in air at $600^{\circ}C$ for 1 hour. The surface morphology of these samples were studied using SEM. The SEM studies showed network of pores in all samples. These samples were immersed in stimulated body fluids (SBF) kept at $36.5^{\circ}C$ for different periods over the length of 1 to 14 days. The apatite formation was confirmed on all Ti-alloys using EDAX.
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