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The effects of blocking the oxygen in the air during the polymerization of sealant
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ÀÌ»óÈ£ ( Lee Sang-Ho ) - Á¶¼±´ëÇб³ Ä¡°ú´ëÇÐ ¼Ò¾ÆÄ¡°úÇб³½Ç
KMID : 0358920060330030365
Abstract
ÇҷΰÕ, ÇöóÁ ±×¸®°í 2¼¼´ë °í°µµ LED ±¤ÁßÇձ⸦ ÀÌ¿ëÇÏ¿© Ä¡¸é¿±¸Àü»öÁ¦¸¦ ÁßÇÕÇÏ´Â °úÁ¤¿¡¼ »ê¼Ò Â÷´Ü ¿ë¾×ÀÎ glycerin gel(DeOx {(R)})ÀÇ µµÆ÷, Áú¼Ò°¡½º¿Í ź»ê°¡½º¸¦ ºÐ»ç½ÃÄÑ °ø±â Áß »ê¼Ò¿ÍÀÇ Á¢ÃËÀ» Â÷´Ü½ÃŲ ÈÄ »ê¼Ò¾ïÁ¦ÃþÀÇ µÎ²², Ä¡¸é¿±¸Àü»öÁ¦ÀÇ ÁßÇÕ·ü ±×¸®°í Ç¥¸é°æµµ¸¦ ÃøÁ¤, Æò°¡ÇÏ¿´´Ù. °¢°¢ÀÇ Á¦ÀÛµÈ ½ÃÆíÀ» HPLC¿¡¼ ¿ª»óÅ©·Î¸¶Åä±×·¡ÇǸ¦ ÀÌ¿ëÇÏ¿© ¹Ì¹ÝÀÀ ¸ð³ë¸Ó TEGDMAÀÇ ¿ëÃâ¾çÀ» ÃøÁ¤ÇÏ¿© ÁßÇÕ·üÀ» Æò°¡ÇÏ¿´°í, Vickers hardness tester¸¦ ÀÌ¿ëÇÏ¿© Ç¥¸é¹Ì¼¼°æµµ¸¦ ÃøÁ¤, ±¤ÇÐÇö¹Ì°æÀ» ÀÌ¿ëÇÏ¿© »ê¼Ò¾ïÁ¦ÃþÀÇ µÎ²²¸¦ ÃøÁ¤ÇÏ¿© ´ÙÀ½°ú °°Àº °á°ú¸¦ ¾ò¾ú´Ù.
1. Áú¼Ò ¹× ź»ê°¡½º¸¦ ºÐ»çÇÏ¸é¼ ÁßÇÕÇÑ ±º, DeOx {(R)}¸¦ µµÆ÷ÇÑ ÈÄ ÁßÇÕÇÑ ±º ¸ðµÎ °ø±â Áß¿¡¼ ÁßÇÕÇÑ ±ºº¸´Ù. TEGDMA ¿ëÃâ·®ÀÌ °¨¼ÒµÇ¾ú´Ù(p<0.05).
2. ÇÒ·Î°Õ ±¤À¸·Î 20ÃÊ°£ ÁßÇÕÇÑ °æ¿ì DeOx {(R)}¸¦ µµÆ÷ÇÑ ±º°ú Áú¼Ò ¹× ź»ê°¡½º¸¦ ºÐ»çÇÑ ±ºÀÇ TEGDMA ¿ëÃâ·®Àº À¯»çÇÏ¿´Áö¸¸(p>0.05), 40ÃÊ·Î ÁßÇÕÇÑ °æ¿ì ź»ê°¡½º ºÐ»ç±ºÀÌ Áú¼Ò°¡½º ºÐ»ç±ºº¸´Ù TEGDMA ¿ëÃâ·®ÀÌ Àû¾ú´Ù(p<0.05).
3. ÇöóÁ ±¤À¸·Î 10ÃÊ°£ ÁßÇÕÇÑ °æ¿ì DeOx {(R)}¸¦ µµÆ÷ÇÑ ±ºÀÇ TEGDMA ¿ëÃâ·®ÀÌ °¡Àå Àû¾ú°í(p<0.05), ź»ê°¡½º ºÐ»ç±ºÀÌ Áú¼Ò°¡½º ºÐ»ç±ºº¸´Ù ¿ëÃâ·®ÀÌ Àû¾ú´Ù(p<0.05).
4. LED ±¤¿ø¿¡¼´Â ź»ê°¡½º ºÐ»ç±ºÀÌ Áú¼Ò°¡½º ºÐ»ç±ºº¸´Ù TEGDMAÀÇ ¿ëÃâ·®ÀÌ Àû¾ú´Ù(p>0.05).
5. ¼¼ ±¤¿ø °øÈ÷ °ø±â Áß¿¡¼ ÁßÇÕÇÑ ±ºº¸´Ù »ê¼Ò¸¦ Â÷´ÜÇÑ »óÅ¿¡¼ ÁßÇÕÇÑ ±º¿¡¼ ¹Ì¼¼°æµµ°¡ Å©°Ô ³ªÅ¸³µ´Ù(p<0.05).
6. DeOx {(R)}·Î ó¸®ÇßÀ» ¶§ ÇöóÁ ±¤ 10ÃÊ¿Í LED±¤ 20ÃÊ ÁßÇÕ±ºÀÌ ÇÒ·Î°Õ ±¤ 40ÃÊ ÁßÇÕ±ºº¸´Ù ¹Ì¼¼°æµµ °ªÀÌ ³ô¾Ò°í, Áú¼Ò°¡½º¿Í ź»ê°¡½º ºÐ»çÇÏ¿¡¼ ÇöóÁ ±¤À¸·Î 10ÃÊ°£ ÁßÇÕÇÑ °æ¿ì¿Í LED ±¤À¸·Î 20ÃÊ°£ ÁßÇÕ ÇÑ °æ¿ì°¡ ÇÒ·Î°Õ ±¤À¸·Î 40ÃÊ°£ ÁßÇÕÇÑ °æ¿ì º¸´Ù ³ôÀº ¹Ì¼¼°æµµ °ªÀ» º¸¿´´Ù(p<0.05).
7. ¼¼ ±¤¿ø ¸ðµÎ °ø±â Áß¿¡¼ ÁßÇÕÇÑ ±º¿¡ ºñÇØ Áú¼Ò ¹× ź»ê°¡½º ºÐ»ç¸¦ ºÐ»çÇÏ¸é¼ ÁßÇÕÇÑ ±º DeOx {(R)}¸¦ µµÆ÷ÇÑ ÈÄ ÁßÇÕÇÑ ±ºÀÌ »ê¼Ò¾ïÁ¦ÃþÀÇ µÎ²²°¡ Æò±Õ 49%ÀÇ °¨¼ÒµÇ¾úÀ¸¸ç(p<0.05), ÀÌµé »ê¼Ò¸¦ Â÷´ÜÇÑ ±º °£ÀÇ À¯ÀÇÂ÷´Â ¾ø¾ú´Ù.
The purpose of this study was to evaluate the efficacy of blocking the oxygen in the air during the polymerization of sealant. All curing were performed with various light curing units under the application of oxygen gel barrier, stream of nitrogen and carbon dioxide gas for inhibition of oxygen diffusion into sealant surface.
The results of present study can be summarized as follows :
1. The amount of eluted TEGDMA form the specimens cured with all the three different light units in the stream of N_2 and CO_2 gas and application of Oxygen gel barrier(DeOx {(R)}) were significantly lower than in the room-air atmosphere (Control) (p<0.05).
2. In the DeOx {(R)} application, the amount of eluted TEGDMA the specimen cured with PAC light for 10seconds was less than that cured in the stream of N_2 and CO_2 atmospheric conditions (p<0.05)
3. In the LED using 10 or 20sec irradiation times under the stream of N_2 and CO_2, the eluted TEGDMA showed to be no statistically significant difference (p>0.05).
4. The microhardness from the specimens cured with all the three different light units under each treated conditions were significantly higher than in the room-air atmosphere (p<0.05). 5. The surface treatment by DeOx {(R)}, N_2 and CO_2 reduces the thickness of oxygen inhibited layer by sp proximately 49% of the untreated control value.
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Oxygen inhibited layer;Light sources;TEGDMA(triethyleneglycol dimethacrylate)
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