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Precalcification Treatment of TiO2 Nanotube on Ti-6Al-4V Alloy
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±è½ÃÁ¤ ( Kim Si-Jung ) - ÀÌÈ¿©ÀÚ´ëÇб³ ÀÇÇÐÀü¹®´ëÇпø Ä¡°úº¸Ã¶Çб³½Ç
¹èżº ( Bae Tae-Sung ) - ÀüºÏ´ëÇб³ Ä¡°ú´ëÇÐ Ä¡°úÀç·áÇб³½Ç
¹ÚÀºÁø ( Park Eun-Jin ) - ÀÌÈ¿©ÀÚ´ëÇб³ ÀÇÇÐÀü¹®´ëÇпø Ä¡°úº¸Ã¶Çб³½Ç
¹ÚÁø¸¸ ( Park Jin-Man ) - ¼¿ï´ëÇб³ Ä¡°ú´ëÇÐ Ä¡°úº¸Ã¶Çб³½Ç
KMID : 0362420090470010039
Abstract
¿¬±¸¸ñÀû: ÃÖ±Ù Ä¡°ú¿ë ÀÓÇöõÆ®ÀÇ ÀÓ»ó °æÇâÀÌ Àüü Ä¡·á±â°£À» ÁÙÀÏ ¼ö ÀÖ´Â ¹æ¹ý¿¡ °ü½ÉÀÌ ÁýÁߵʿ¡ µû¶ó ºÒÈ°¼ºÀÇ Æ¼Å¸´½ ÀÓÇöõÆ® Ç¥¸é¿¡ È°¼ºÀ» ºÎ¿©Çϱâ À§ÇÑ ´Ù¾çÇÑ Ç¥¸éó¸® ¹æ¹ýÀÌ °ËÅäµÇ°í ÀÖ´Ù. º» ¿¬±¸¿¡¼´Â ³ôÀº °µµ°¡ ¿ä±¸µÇ´Â ºÎÀ§ÀÇ ÀÓÇöõÆ® Àç·á·Î¼ »ç¿ëµÇ°í ÀÖÁö¸¸ Ç¥¸é Ư¼ºÀÌ ¼ø ƼŸ´½¿¡ ºñÇØ ¶³¾îÁö´Â Ti-6Al-4V ÇÕ±ÝÀÇ °ñÀüµµ¼ºÀ» °³¼±ÇÒ ¸ñÀûÀ¸·Î ½ÃÇàµÇ¾ú´Ù.
¿¬±¸ Àç·á ¹× ¹æ¹ý: 20 ¡¿ 10 ¡¿ 2 mmÀÇ Ti-6Al-4V ÇÕ±ÝÆÇÀ» ÁغñÇÑ ´ÙÀ½ TiO2 ³ª³ëÆ©ºê¸¦ Çü¼ºÇϱâ À§ÇØDC Á¤Àü¿ø ÀåÄ¡ÀÇ ¾ç±Ø°ú À½±Ø¿¡ °¢°¢ ½ÃÆí°ú ¹é±ÝÆÇÀ» °á¼±ÇÏ°í 0.5 M Na2SO4¿Í 1.0 wt% NaF¸¦ ÇÔÀ¯ÇÏ´Â ÀüÇؾ×À» »ç¿ëÇÏ¿© Àü¾Ð 20 V¿Í Àü·ù¹Ðµµ 30 §Ì/§² Á¶°Ç¿¡¼ 2½Ã°£ µ¿¾È ¾ç±Ø»êÈ Ã³¸®ÇÏ¿´´Ù. TiO2 ³ª³ëÆ©ºê Çü¼º ÈÄ »êÈ ÇǸ·ÃþÀÇ °áÁ¤È¸¦ À¯µµÇϱâ À§ÇØ 600¡É¿¡¼ 2½Ã°£ µ¿¾È ¿Ã³¸®ÇÏ¿´°í, Ç¥¸éÈ°¼ºµµ¸¦ °³¼±Çϱâ À§ÇØ 0.5 M Na2HPO4 ¼ö¿ë¾× 24½Ã°£ ħÀû°ú Ca(OH)2 Æ÷È ¼ö¿ë¾×¿¡ 5½Ã°£ ħÀûÀ» ½ÃÇàÇÏ¿´´Ù. ÁغñÇÑ ½ÃÆíÀÇ Ç¥¸é ¹ÝÀÀ¼ºÀ» Á¶»çÇϱâ À§ÇØ pH¿Í ¹«±âÀÌ¿ÂÀÇ ³óµµ¸¦ »ç¶÷ÀÇ Ç÷Àå°ú À¯»çÇÏ°Ô Á¶ÀýÇÑ Hanks ¿ë¾× (H2387, Sigma Chemical Co., USA)¿¡ 2ÁÖ°£ ħÀûÇÏ¿´´Ù.
°á°ú: 20 V¿¡¼ÀÇ ¾ç±Ø»êÈ󸮷ΠÁ÷°æ 48.0 - 65.0 §¬ ¹üÀ§ÀÇ ¹«Á¤ÇüÀÇ TiO2 ³ª³ëÆ©ºê°¡ Àüü Ç¥¸é¿¡ °ÉÃļ ±ÕÀÏÇÏ°Ô »ý¼ºµÇ´Â ¾ç»óÀ» º¸¿´´Ù. TiO2 ³ª³ëÆ©ºê´Â 600¡É¿¡¼ 2½Ã°£ ¿Ã³¸® ÈÄ »ó´ëÀûÀ¸·Î °ÇÑ anatase ÇÇÅ©¿Í ÇÔ²² rutile ÇÇÅ©°¡ °üÂûµÇ¾ú´Ù. TiO2 ³ª³ëÆ©ºêÀÇ Ç¥¸éÈ°¼ºµµ´Â 0.5 M Na2HPO4 ¼ö¿ë¾× 24½Ã°£ ħÀû°ú Ca(OH)2 Æ÷ȼö¿ë¾×¿¡ 5½Ã°£ ħÀûÀ¸·Î °³¼±µÇ¾ú´Ù. ¿Ã³¸®¿Í Àü¼®È¸È ó¸® ÈÄ SBF¿¡ ħÀûÇÑ °á°ú, TiO2 rutile ÇÇÅ©ÀÇ »ó´ëÀû °µµ´Â Å©°Ô Áõ°¡µÇ¾úÁö¸¸HAÀÇ ¼®ÃâÀº ÀúÇϵǴ °æÇâÀ» º¸¿´´Ù.
°á·Ð: ÀÌ»óÀÇ °á°ú·Î ¹Ì·ç¾î º¼ ¶§, ¾ç±Ø»êÈ Ã³¸®ÇÑ TiO2 ³ª³ëÆ©ºê´Â 600¡É¿¡¼ÀÇ ¿Ã³¸®¿¡ ÀÇÇØ ÇǸ·ÃþÀÌ ¾ÈÁ¤ÈµÇ°í, 0.5 M Na2HPO4 ¼ö¿ë¾× 24½Ã°£ ħÀû°ú Ca(OH)2 Æ÷ȼö¿ë¾×¿¡ 5½Ã°£ ħÀûÀ¸·Î Ç¥¸é¿¡ ÀλêÄ®½·ÃþÀ» Çü¼ºÇÏ´Â °ÍÀÌ Ç¥¸éÈ°¼ºµµ¸¦ °³¼±Çϴµ¥ À¯È¿ÇÔÀ» ¾Ë ¼ö ÀÖ¾ú´Ù.
Statement of problem: Recently precalcification treatment has been studied to shorten the period of the implant.
Purpose: This study was performed to evaluate the effect of precalcification treatment of TiO2 Nanotube formed on Ti-6Al-4V Alloy. Material and methods: Specimens of 20 ¡¿ 10 ¡¿ 2 mm in dimensions were polished sequentially
from #220 to #1000 SiC paper, ultrasonically washed with acetone and distilled water for 5 min, and dried in an oven at 50¡É for 24 hours. The nanotubular layer was processed by electrochemical anodic oxidation in electrolytes containing 0.5 M Na2SO4 and 1.0 wt% NaF. Anodization was carried out using a regulated DC power supply (Kwangduck FA, Korea) at a potential of 20 V and current density of 30 §Ì/§² for 2 hours. Specimens were heat-treated at 600¡É for 2 hours to crystallize the amorphous TiO2 nanotubes, and precalcified by soaking in Na2HPO4 solution for 24 hours and then in saturated Ca(OH)2 solution for 5 hours. To evaluate the bioactivity of the precalcified TiO2 nanotube layer, hydroxyapatite formation was investigated in a Hanks¡¯balanced salts solution with pH 7.4 at 36.5¡É for 2 weeks.
Results: Vertically oriented amorphous TiO2 nanotubes of diameters 48.0 - 65.0 §¬ were fabricated by anodizing treatment at 20 V for 2 hours in an 0.5 M Na2SO4 and 1.0 NaF solution. TiO2 nanotubes were composed with strong anatase peak with presence of rutile peak after heat treatment at 600¡É. The surface reactivity of TiO2 nanotubes in SBF solution was enhanced by precalcification treatment in 0.5 M Na2HPO4 solution for 24 hours and then in saturated Ca(OH)2 solution for 5 hours. The immersion in Hank¡¯s solution for 2 weeks showed that the intensity of TiO2 rutile peak increased but the surface reactivity decreased by heat treatment at 600¡É.
Conclusion: This study shows that the precalcified treatment of TiO2 Nanotube formed on Ti-6Al-4V Alloy enhances the surface reactivity.
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Implant surface;Anodization;Nanotube;Heat treatment;Precalcification;Surface activity
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