The Investigation of Thermoluminescence Properties of Tooth Enamel
Yıl 2016,
Cilt: 3 Sayı: 2, 297 - 303, 31.05.2016
Mehmet İsmail Katı
,
Kadir Kadiroğulları
Murat Türemiş
İlker Çetin Keskin
Ahmet Çetin
,
Rana Kibar
Öz
In this study; Thermoluminescence(TL) properties of tooth enamel which was obtained from healh teeth in the Faculty of Dentistry Aegean University. The tooth enamel was exposed to X-ray and TL spectra were taken with different heating rates (β) (2-10oC/s). It was observed that there is a broad TL peak approximately at 210 oC for tooth enamel in the range of 50-400 oC. The dependence of heating rate and exposed X-ray dose (dose response) of the 210 oC peak were investigated, as well as kinetic parameters were calculated using peak shape and heating rate methods for tooth enamel.
Kaynakça
- Bernier, J.L., Muhler, J.G., Improving dental pactice through preventive measure. The C.V. Mosby Company 1970. p. 139-145.
- Hess, J.C., Librairine malonine. Endodonte I,II, S.A. Paris 1970.
- Sicher, H., Dubrul, E. L., Oral anatomy. The C.V. Mosby Company 1970.
- Toktamış, H., Toktamış, D., Yılmaz, S.M., Yazıcı, A.N., Yıldırım, C., Özbıçkıcı, Ö., The investigation of fluorapatite mineral(Ca5F(PO4)3)in tooth enamel under the different pre-irradiation thermal treatments. Thermochimica Acta, 2015.600:p. 102-109.
- Fattibene, P., Callens, F., EPR dosimetry with tooth enamel: A review. Applied rediation and isotopes, 2010. 68: p. 2033-2116.
- Deutsch, D., Alyoff, A., Changes in amino acid composition and protein distribution during development of human deciduous enamel. Growth, 1987.51: p. 342-352.
- Brady, J.M., Aarestad, N.O., Schwartz, H.M., In vivo dosimetry by electron spin resonance spectroscopy. Health Phys, 1968.15: p. 43-47.
- Mathieu, D., Rainer, G., Are publishhed ESR dose assessments of fossil tooth enamel reliable?, Quathernary geochronology, 2016.31: p. 19-27.
- Alghonamy, W.Y., Gaballah, O.M., Labah, D.A., Age estimation in adult human sound and periordontally affected teeth using tooth cementum. Tanta Dental Journal, 2015.12: p. 277-285.
- Secu, C.E., Cherestes, M., Secu, M., Cherestes, C., Paraschiva, V., Barca, C., Retrospective dosimetry assesment using the 380 oC thermoluminescence peak of tooth enamel, Radiation Measurents, 2011.49: p. 1109-1112.
- Shao, Q., Bahain, J.J., Dolo, J.M., Falgueres, C., Monte carlo approach to calculate US-ESR age and age uncertainty for tooth enamel, Quaternary Geochronology, 2014.22: p. 99-106.
- Grün, R., The DATA program for the calcilation of ESR age estimates on tooth enamel, Quaternary Geochronology, 2009.4: p. 231-232.
- Cameriere, R., Cunha, E., Wasterlain, S.N., De Luca, S., Sassaroli, E., Pagliora, F., Nuzzolese, E., Cingolani, M., Ferrante, L., Age estaimation by pulp/tooth ratio in lateral and central incisors by peri-apical x-ray, Journal of Forensic and Legal Medicine, 2013.20: p. 530-536.
- Sholom, S., DeWitt, R., Simon, S.L., Bouville, A., McKeever, S.W.S., Emergency dose estimation using optically stimulated luminescence from human tooth enamel, Radiation Measurements, 2011.46: p. 778-782.
- DeWitt, R., Klein, D.M., Yukihara, E.G., Simon, S.L., McKeever, S.W.S, Optically stimulated luminescence (OSL) of tooth enamel and its potential use in past-radiation exsposure triage, Health Phys. 2014.98: p.432-439.
- Young, R.A., Mackie, P.E, Sudarsanan, K., Materials Research Bulletin, 1972.7: p.1331-1338.
- Annalakshmi, O., Jose, M.T., Sridevi, J., Venkatraman, B., Amarendra, G., Mandal, A.B., Kinetic parameters and TL mechanism in cadmium tetra borate phosphor, journal of luminescence, 2014.147: p. 284-289.
- Chen, R., Glow curves with general order kinetics, Journal of electrochemical soc., 1969.16: p. 1254-1257.
- Chen, R., Winer, S. A. A., Effects of various heating rates on glow curves, Journal of applied physics, 1970.41: p. 5227.
- Hoogenstraaten, W., Philips Res.Rep, 1958.13: p. 515.
- Yüce, R., Meriç, N., Atakol, A.,Yaşar, F., Dose response of hydranize-deproteinated tooth enamel under blue light stimulation, Radiation measurements, 2010.45: p. 797-800.
Diş Minesinin Termolüninesans Özelliklerinin İncelenmesi
Yıl 2016,
Cilt: 3 Sayı: 2, 297 - 303, 31.05.2016
Mehmet İsmail Katı
,
Kadir Kadiroğulları
Murat Türemiş
İlker Çetin Keskin
Ahmet Çetin
,
Rana Kibar
Öz
Bu çalışmada, Ege Üniversitesi Diş Hekimliği Fakültesi’nden alınan sağlıklı diş minelerinin termolüminesans (TL) özellikleri incelenmiştir. Diş minesi X ışınları ile uyarılarak farklı ısıtma hızlarında (β) (210oC/s) TL spektrumları alınmıştır. 50-400 oC aralığında diş minesi için yaklaşık 210 oC’ de geniş bir TL piki olduğu gözlenmiştir. 210 oC’ deki pikin ısıtma hızı ve X ışını dozuna bağlılığı (doz yanıt) incelenmiş, aynı zamanda pik şekli ve ısıtma hızı metodları kullanılarak diş minesi için kinetik parametreler hesaplanmıştır
Kaynakça
- Bernier, J.L., Muhler, J.G., Improving dental pactice through preventive measure. The C.V. Mosby Company 1970. p. 139-145.
- Hess, J.C., Librairine malonine. Endodonte I,II, S.A. Paris 1970.
- Sicher, H., Dubrul, E. L., Oral anatomy. The C.V. Mosby Company 1970.
- Toktamış, H., Toktamış, D., Yılmaz, S.M., Yazıcı, A.N., Yıldırım, C., Özbıçkıcı, Ö., The investigation of fluorapatite mineral(Ca5F(PO4)3)in tooth enamel under the different pre-irradiation thermal treatments. Thermochimica Acta, 2015.600:p. 102-109.
- Fattibene, P., Callens, F., EPR dosimetry with tooth enamel: A review. Applied rediation and isotopes, 2010. 68: p. 2033-2116.
- Deutsch, D., Alyoff, A., Changes in amino acid composition and protein distribution during development of human deciduous enamel. Growth, 1987.51: p. 342-352.
- Brady, J.M., Aarestad, N.O., Schwartz, H.M., In vivo dosimetry by electron spin resonance spectroscopy. Health Phys, 1968.15: p. 43-47.
- Mathieu, D., Rainer, G., Are publishhed ESR dose assessments of fossil tooth enamel reliable?, Quathernary geochronology, 2016.31: p. 19-27.
- Alghonamy, W.Y., Gaballah, O.M., Labah, D.A., Age estimation in adult human sound and periordontally affected teeth using tooth cementum. Tanta Dental Journal, 2015.12: p. 277-285.
- Secu, C.E., Cherestes, M., Secu, M., Cherestes, C., Paraschiva, V., Barca, C., Retrospective dosimetry assesment using the 380 oC thermoluminescence peak of tooth enamel, Radiation Measurents, 2011.49: p. 1109-1112.
- Shao, Q., Bahain, J.J., Dolo, J.M., Falgueres, C., Monte carlo approach to calculate US-ESR age and age uncertainty for tooth enamel, Quaternary Geochronology, 2014.22: p. 99-106.
- Grün, R., The DATA program for the calcilation of ESR age estimates on tooth enamel, Quaternary Geochronology, 2009.4: p. 231-232.
- Cameriere, R., Cunha, E., Wasterlain, S.N., De Luca, S., Sassaroli, E., Pagliora, F., Nuzzolese, E., Cingolani, M., Ferrante, L., Age estaimation by pulp/tooth ratio in lateral and central incisors by peri-apical x-ray, Journal of Forensic and Legal Medicine, 2013.20: p. 530-536.
- Sholom, S., DeWitt, R., Simon, S.L., Bouville, A., McKeever, S.W.S., Emergency dose estimation using optically stimulated luminescence from human tooth enamel, Radiation Measurements, 2011.46: p. 778-782.
- DeWitt, R., Klein, D.M., Yukihara, E.G., Simon, S.L., McKeever, S.W.S, Optically stimulated luminescence (OSL) of tooth enamel and its potential use in past-radiation exsposure triage, Health Phys. 2014.98: p.432-439.
- Young, R.A., Mackie, P.E, Sudarsanan, K., Materials Research Bulletin, 1972.7: p.1331-1338.
- Annalakshmi, O., Jose, M.T., Sridevi, J., Venkatraman, B., Amarendra, G., Mandal, A.B., Kinetic parameters and TL mechanism in cadmium tetra borate phosphor, journal of luminescence, 2014.147: p. 284-289.
- Chen, R., Glow curves with general order kinetics, Journal of electrochemical soc., 1969.16: p. 1254-1257.
- Chen, R., Winer, S. A. A., Effects of various heating rates on glow curves, Journal of applied physics, 1970.41: p. 5227.
- Hoogenstraaten, W., Philips Res.Rep, 1958.13: p. 515.
- Yüce, R., Meriç, N., Atakol, A.,Yaşar, F., Dose response of hydranize-deproteinated tooth enamel under blue light stimulation, Radiation measurements, 2010.45: p. 797-800.