Dielektrik Spektroskopi ile Üleksitin Elektriksel Özellikleri

Bu malzeme araştırma çalışmasında, üleksit pelletler için dielektrik sabitinin frekansa karşı reel ve sanal kısmı, empedans, kayıp faktörü, iletkenliğin reel kısmı ve sanal kısmı gibi elektriksel parametreler sunulmuştur. Elektriksel özellikler dielektrik spektroskopi ile sıcaklığa ve frekansa bağlı olarak incelenmiştir. Üleksitin dielektrik parametre özelliklerinin gerçek ve sanal kısımları, 25-200 ºC sıcaklık aralığında 100 Hz-15 MHz frekans aralığında ölçülmüştür. AC iletkenliğin oda sıcaklığında artan frekansla arttığı, daha yüksek sıcaklıklarda ise artan frekansla azaldığı gözlemlenmiştir.

Anahtar Kelimeler:

Üleksit, dielektrik spektroskopi, bor, empedans, sıcaklık

Electrical Properties of Ulexite by Dielectric Spectroscopy

In this work of the material investigation, electrical parameters, which are real part and imaginary part of dielectric constant versus frequency, real part and imaginary part of impedance, dissipation factor, and conductivity, in the bulk ulexite pellet is presented. Electrical properties were investigated dependent temperature and frequency with dielectric spectroscopy. Real and imaginary part of dielectric parameter properties of the ulexite were measured at frequencies from 100 Hz to 15MHz in the temperature range of 25 to 200 ºC. It was observed that AC conductivity increased with increasing frequency at room temperature and decreased with increasing frequency at higher temperatures.

Keywords:

Ulexite, dielectric spectroscopy, boron, impedance, temperature.,

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Aghamiri, S., Mortazavi, S., Shirazi, M. M., Baradaran-Ghahfarokhi, M., Rahmani, F., Amiri, A., & Jarideh, S. (2014). Production of a novel high strength heavy concrete using tourmaline and galena for neutron and photon radiation shielding. International Journal of Radiation Research, 12(3), 277-282.
Akkurt, I., Akyildirim, H., Mavi, B., Kilincarslan, S., & Basyigit, C. (2010). Gamma-ray shielding properties of concrete including barite at different energies. Progress in Nuclear Energy, 52(7), 620-623.
Anaç, S., & Tamzok, N. (2007). The mining industry of Turkey. Paper presented at the 2nd Balkan Mining Congress Book of Proceedings.
Bideci, Ö. S. (2016). The effect of high temperature on lightweight concretes produced with colemanite coated pumice aggregates. Construction and Building Materials, 113, 631-640.
Cicek, B. (2013). Development of glass-ceramics from combination of industrial wastes together with boron mining waste.
Elçiçek, H., & Kocakerim, M. M. (2018). Leaching kinetics of ulexite ore in aqueous medium at different CO 2 partial pressures. Brazilian Journal of Chemical Engineering, 35(1), 111-122.
Gavrilova, N., Lotonov, A., & Kornilova, A. (2008). Dielectric properties of colemanite. Inorganic Materials, 44(2), 171-175.
Kar, Y., Şen, N., & Demirbaş, A. (2006). Boron minerals in Turkey, their application areas and importance for the country's economy. Minerals & Energy-Raw Materials Report, 20(3-4), 2-10.
Maslehuddin, M., Naqvi, A., Ibrahim, M., & Kalakada, Z. (2013). Radiation shielding properties of concrete with electric arc furnace slag aggregates and steel shots. Annals of Nuclear Energy, 53, 192-196.
Mergen, A., & Demirhan, M. (2009). Dissolution kinetics of probertite in boric acid solution. International Journal of Mineral Processing, 90(1-4), 16-20.
Meydan, E. (2019). Boron compounda with magnetic properties and their application areas in industry. Journal of Scientific Perspectives, 3(1), 11-20.
Okutan, M., Kavanoz, H., İçelli, O., Yalçın, Z., Ay, F., Delipınar, D., & Yakuphanoğlu, F. (2014). Dielectric characterization of electro-coagulated boron waste. Vacuum, 101, 298-300.
Okutan, M., Yalçın, Z., İçelli, O., Ay, F., Boncukçuoğlu, R., Artun, O., & Delipınar, D. (2014). Electrical behavior of probertite by dielectric spectroscopy. High Temperature Materials and Processes, 33(6), 545-552.
Schubert, D. (2000). Boron oxides, boric acid, and borates. Kirk‐Othmer Encyclopedia of Chemical Technology, 1-68.
Schubert, D. M. (2003). Borates in industrial use. In Group 13 Chemistry III (pp. 1-40): Springer.
Yilmaz, O. (2007). Boron in Turkey: Between myth and reality. Insight Turkey, 9(4), 37-44.
Zhang, X.-J., Wang, G.-S., Wei, Y.-Z., Guo, L., & Cao, M.-S. (2013). Polymer-composite with high dielectric constant and enhanced absorption properties based on graphene–CuS nanocomposites and polyvinylidene fluoride. Journal of Materials Chemistry A, 1(39), 12115-12122.