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Bi-Ga Kısmi Yer Değiştirme Etkisinin Manyetik, Mekanik ve Mikroyapısal Özellikler Bi(1,8-x)Pb0,2GaxSr2CaCu2Oy Süperiletken Üzerinde İncelenmesi

Yıl 2022, Cilt: 10 Sayı: 3, 423 - 438, 30.09.2022
https://doi.org/10.29109/gujsc.1127485

Öz

BSCCO 2212 süperiletken sistem, ekleme ve kısmi değiştirme yöntemleri nedeniyle açık bir yapıya sahip olduğundan birçok çalışma yapılmış ve makaleler yayınlanmıştır. Bu çalışmada, BSCCO 2212 süperiletkeninde belirli bir oranda Bi-Ga kısmi yer değiştirmesi yapılarak Ga oranı artırılarak elde edilen örneklerin duyarlılığı ölçülerek Ga'nın yapının süperiletkenliğine etkisi araştırılmıştır. Her numunenin mekanik özelliklerini incelemek için Vickers mikro sertlik ölçümleri kullanıldı. Numunelerin yapısal özelliklerini belirlemek için x-ışını kırınımı (XRD) analiz sonuçları değerlendirildi ve taramalı elektron mikroskobu (SEM) görüntüleri ile kristal yapı oluşumları gözlemlendi.

Destekleyen Kurum

Gazi Üniversitesi BAP

Proje Numarası

05/2016-05

Kaynakça

  • 1. Bednorz, J. G., Müller, K. A.: Possible high Tc superconductivity in the Ba-La-Cu-O system. Condensed Matter. 64, 189-193 (1986)
  • 2. Maeda, H., Tanaka, Y., Fukutomi, M., Asano, T.: A new high-Tc oxide superconductor without a rare earth element. Jpn. J. Appl. Phys. 27(2), 209-210 (1988)
  • 3. Michel, C., Hervieu, M., Borel, M. M., Grandin, A., Deslands, F., Provost, J., Ravenau, B.: Superconductivity in the Bi-Sr-Cu-O system. Zeitschrift Physik B. (68), 421 (1987)
  • 4. Saritekin, N. K., Uzumcu, A. T.: Improving Superconductivity, Microstructure, and Mechanical Properties by Substituting Different Ionic Pb Elements to Bi and Ca Elements in Bi 2223 Superconductors. Journal of Superconductivity and Novel Magnetism (2022)
  • 5. Sedky, A., Salah, A.: Comparative Study of the Efects of La Substituted Ca in (Bi, Pb):2212 and (Bi, Pb):2223 Superconductors. Journal of Electronic Materials (2022) 51:3042–3058 (2022)
  • 6. Ummarino, G. A.: Standard Behaviour of Bi2Sr2CaCu2O8+δ Overdoped. Condens. Matter 2021, 6, 13 (2021)
  • 7. Gayathri V., Santanu, B., Amaladass, E. P., Kumary, G. T., Pandian, R., Mani, A.: Effects of Pb assisted cation chemistry on the superconductivity of BSCCO thin films. Phys. Chem. Chem. Phys., 2021, 23, 12822–12833 (2021)
  • 8. Zhao, X., Wang, D., Wang, T., Hong, S., Jiang, L., Dai, Y., Qi, Y.: Preparation of Bi2Sr2CaCu2O8+d(Bi2212) superconductor by Pechini sol–gel method: thermal decomposition and phase formation kinetics of the precursors. J Mater Sci: Mater Electron (2020)
  • 9. Kır, E., Özkurt, B., Aytekin, M., The effect of K-Na Co-doping on the formation and particle size of Bi- 2212 phase Physica B. 490, 79–85 (2016)
  • 10. Asghari, R., Colakerol Arslan, L., Sedghi, H., Naghshara, H.: Synthesis and Characterization of Nb Substitution on (Bi-Pb)-2223 Superconductors. J Low Temp Phys.189:15–26 (2017)
  • 11. Asghari, R., Naghshara, H., Arsalan, L., Sedghi, H.: Comparing the Effects of Nb, Pb, Y, and La Replacement on the Structural, Electrical, and Magnetic Characteristics of Bi-Based Superconductors. Journal of Superconductivity and Novel Magnetism. 31:3889–3898 (2018)
  • 12. Boussouf, N.,· Mosbah, M. F.,· Kalkoul, N., · Benhamideche, C.: Effect of Zr Addition on Bi1.8Pb0.4Sr2.0Ca1.1Cu2.1Oy Superconductor. J Supercond. Nov. Magn. 30:365–370 (2017)
  • 13. Gül, E., Ozkurt, B., Aytekin, M. E., Ocakoğlu, K.: Structural, electrical and magnetic properties of Au doped Bi-2212 superconductors. Pamukkale Uni. Muh. Bilim Derg. 27(1), 70-77 (2021)
  • 14. Ozkurt, B.: Structural, Electric and Magnetic Properties of Bi2Sr2Ag0.03Ca1Cu2Oy Ceramics Modified by Post-annealing” Journal of Superconductivity and Novel Magnetism (2018) 31:2459–2464
  • 15. Khaled, J., Sato, R., Komatsu, T.: Effect of addition on the glass-forming ability and superconducting properties ob Bi-Sr-Ca-Cu-O System. Journal of the Ceramic Society of Japan. 105 [3], 265-268 (1997)
  • 16. Kazin, P. E., Poltavets, V. V., Poltavets, O. N., Kovalevsky, A. A., Tretyakov, Y.D., Jansen, M.: Formation of Bi-2212 phase and phase assemblage in Ga-doped BSCCO system. Physica C, 324, 30–38 (1999)
  • 17. Kannan, Y., Bansal, C., Rajaram, G. “Effect Of Ga203 Substıtutıon in Bi-2212 Superconductor” Solid State Communications. 81, 1, 109-113, 1992.
  • 18. Kim, K.T., Jang S.H., Park, E.C., Joo, J., Kim, H., Hong, G.-W., Kim C.-J., Kim H.-R., Hyun, O.-B.: Fabrication and characterization of bulk BSCCO(2212)-SrSO4 composites by the melt casting process. Physica C. 445–448, 447–450 (2006)
  • 19. Dongqi, L., Hui, Z., Xiang, G., Shengan, Y., Qingming, C.,: “Effect of the fabrication process on the electrical properties of polycrystalline Bi1.7Pb0.3Sr2Ca2Cu3O10. Ceramics International. 42 1728–1732 (2016)
  • 20. Bock, J., Bestgen, H., Elscbner, S., Preisler, E.:Large shaped parts of melt cast BSCCO for applications in electrical engineering. Transactions on applied superconductivity. 3-l (1993)
  • 21. Z. Ozhanli, E., Yakinci, M. E., Balci, Y., Aksan, M. A.: Crystallization activation energy and hole concentration properties of the Bi2Sr2CaxCdxCu2O8+y Glass-Ceramic Superconductor Rods. Journal of Superconductivity: Incorporating Novel Magnetism. 15, 6 (2002)
  • 22. Yanmaz, E., Harris, I. R., Abell, J. S.: Direct current zoning (DCZ) and direct current annealing (DCA) of melt-cast Bi-Pb-Sr-Ca-Cu-O rods. Journal of AUoys and Compounds. 185, 311-320 (1992)
  • 23. Tsukamoto, T., Inada, R., Inagaki, N., Andoh, H., Sugiura, T., Oota, .: Alternating-current transport losses of melt-cast processed Bi-2212 bulk superconductor bars. Supercond. Sci. Technol. 16 1246–1251 (2003)
  • 24. Dongqi, L., Hui, Z., Xiang, G., Shengan, Y., Qingming, C.: Effect of the fabrication process on the electrical properties of polycrystalline Bi1.7Pb0.3Sr2Ca2Cu3O10” Ceramics International42(2016)1728–1732
  • 25. Kayed, T. S., Calınlı, N., Aksu, E., Koralay, H., Günen, A., Ercan, İ., Aktürk, S., Çavdar, Ş.: Microstructural, thermal, and electrical properties of Bi1.7V0.3Sr2Ca2Cu3Ox glass-ceramic superconductor. Cryst. Res. Technol. 39, 12, 1063 – 1069 (2004)
  • 26. Hanjın, L., Byrne, J. G.: Effect of precursor history on synthesis of high-T BPSCCO superconductor Journal of Materials Science 31, 234.9-2352 (1996)
  • 27. Koralay, H., Çavdar, Ş., Arslan, A., Ozturk, O., Tasci, A.T., Tugluoglu, N.: Experimental and theoretical approaches for magnetic, superconducting and structural characterization of Bi1.75Pb0.25Sr2Ca2Cu3-xSnxO10+y glass-ceramics. Cryogenics. 88 17–21(2017)
  • 28. Semenenkol, B., Camargo1, B. C., Setzer, A., ·Bohlmann, W., Kopelevich, Y., Esquinazi, P. D.: Magnetization of Bi2Sr2CaCu2O8+δ micrometer thin ring and ıts depinning line. Journal of Superconductivity and Novel Magnetism.33:2669–2678 (2020)
  • 29. Francesca, I.V.,· Hannah, B.,·Carlo, A., · Roland, S.: Effect of In2O3 on the grain connectivity and superconducting behavior of Bi2Sr2−xInxCaCu2O8+d. SN Applied Sciences 1:96 (2019)
  • 30. Ozturk, O., Asikuzun, E., Tasci, A.T., Gokcen, T., Ada, H., Koralay, H. Cavdar, S.: Comparison of Vickers microhardness of undoped and Ru doped BSCCO glass ceramic materials. Journal of Materials Science: Materials in Electronics 29:3957–3966 (2018)
  • 31. Ozturk, O., Gokcen, T., Cavdar, S., Koralay, H., Tasci, A. T.: A study on nucleation, crystallization kinetics, microstructure and mechanical properties of Ru–Bi partial substituted BSCCO glass-ceramics. J Therm Anal Calorim 123:1073–1082 (2016)
  • 32. Awad, R., Abou-Aly, A.I., Kamal, M., Anas, M.: Mechanical properties of (Cu0.5Tl0.5)-1223. Supercond Nov Magn. 24:1947–56 (2011)
  • 33. Sangwal K.: On the reverse indentation size effect and microhardness measurement of solids. Mater Chem Phys. 63:145–52 (2000)
  • 34. Khalil, S. M.: Influence of isothermal hot pressing-doping treatment on the electrical and mechanical properties of bulk Bi-Sr-Ca-Cu-O” AIP Advances 2, 042183 (2012)
  • 35. Sangwal, K., Surowska, B.: Study of indentation size effect and microhardness of SrLaAlO4 and SrLaGaO4 single crystals. Materials Research Innovations, 7:2, 91-104 (2003)
  • 36. Hays, C., Kendall, E. G.: An Analysis of Knoop Microhardness. Metallography, 6, 275-282 ( 1973).
  • 37. Gane, N., Bowden, F. P.: Microdeformation of Solids. Journal of Applied Physics, 39, 1432-1435 (1968)
  • 38 Awad, R., Abou-Aly, A. I., Kamal, M., Anas, M.: Mechanical Properties of (Cu0.5Tl0.5)-1223 Substituted by Pr. J. Supercond. Nov. Magn., 24: 1947-1956 (2011).
  • 39. Li, H., R. Bradt, C.: The Microhardness indentation load/size effect in rutile and cassiterite single crystals. Journal of Materials Science, 28, 917-926 (1993)

The Investigation of Bi-Ga Partial Replacement Effect on Magnetic, Mechanical and Microstructural Properties Bi(1,8-x)Pb0,2GaxSr2CaCu2Oy Superconductor

Yıl 2022, Cilt: 10 Sayı: 3, 423 - 438, 30.09.2022
https://doi.org/10.29109/gujsc.1127485

Öz

Since the BSCCO 2212 superconducting system has an open structure due to the addition and partial replacement methods, many studies have been carried out and the articles have been published. In this study, the effect of Ga on the superconductivity of the structure was investigated by measuring the susceptibility of the samples obtained by increasing the Ga ratio by performing Bi-Ga partial replacement at a certain ratio in the BSCCO 2212 superconductor. Vickers micro hardness measurements were used to examine the mechanical properties of each sample. x-ray diffraction (XRD) analysis results were evaluated in order to determine the structural properties of the samples and crystal structure formations were observed by scanning electron microscope (SEM) images.

Proje Numarası

05/2016-05

Kaynakça

  • 1. Bednorz, J. G., Müller, K. A.: Possible high Tc superconductivity in the Ba-La-Cu-O system. Condensed Matter. 64, 189-193 (1986)
  • 2. Maeda, H., Tanaka, Y., Fukutomi, M., Asano, T.: A new high-Tc oxide superconductor without a rare earth element. Jpn. J. Appl. Phys. 27(2), 209-210 (1988)
  • 3. Michel, C., Hervieu, M., Borel, M. M., Grandin, A., Deslands, F., Provost, J., Ravenau, B.: Superconductivity in the Bi-Sr-Cu-O system. Zeitschrift Physik B. (68), 421 (1987)
  • 4. Saritekin, N. K., Uzumcu, A. T.: Improving Superconductivity, Microstructure, and Mechanical Properties by Substituting Different Ionic Pb Elements to Bi and Ca Elements in Bi 2223 Superconductors. Journal of Superconductivity and Novel Magnetism (2022)
  • 5. Sedky, A., Salah, A.: Comparative Study of the Efects of La Substituted Ca in (Bi, Pb):2212 and (Bi, Pb):2223 Superconductors. Journal of Electronic Materials (2022) 51:3042–3058 (2022)
  • 6. Ummarino, G. A.: Standard Behaviour of Bi2Sr2CaCu2O8+δ Overdoped. Condens. Matter 2021, 6, 13 (2021)
  • 7. Gayathri V., Santanu, B., Amaladass, E. P., Kumary, G. T., Pandian, R., Mani, A.: Effects of Pb assisted cation chemistry on the superconductivity of BSCCO thin films. Phys. Chem. Chem. Phys., 2021, 23, 12822–12833 (2021)
  • 8. Zhao, X., Wang, D., Wang, T., Hong, S., Jiang, L., Dai, Y., Qi, Y.: Preparation of Bi2Sr2CaCu2O8+d(Bi2212) superconductor by Pechini sol–gel method: thermal decomposition and phase formation kinetics of the precursors. J Mater Sci: Mater Electron (2020)
  • 9. Kır, E., Özkurt, B., Aytekin, M., The effect of K-Na Co-doping on the formation and particle size of Bi- 2212 phase Physica B. 490, 79–85 (2016)
  • 10. Asghari, R., Colakerol Arslan, L., Sedghi, H., Naghshara, H.: Synthesis and Characterization of Nb Substitution on (Bi-Pb)-2223 Superconductors. J Low Temp Phys.189:15–26 (2017)
  • 11. Asghari, R., Naghshara, H., Arsalan, L., Sedghi, H.: Comparing the Effects of Nb, Pb, Y, and La Replacement on the Structural, Electrical, and Magnetic Characteristics of Bi-Based Superconductors. Journal of Superconductivity and Novel Magnetism. 31:3889–3898 (2018)
  • 12. Boussouf, N.,· Mosbah, M. F.,· Kalkoul, N., · Benhamideche, C.: Effect of Zr Addition on Bi1.8Pb0.4Sr2.0Ca1.1Cu2.1Oy Superconductor. J Supercond. Nov. Magn. 30:365–370 (2017)
  • 13. Gül, E., Ozkurt, B., Aytekin, M. E., Ocakoğlu, K.: Structural, electrical and magnetic properties of Au doped Bi-2212 superconductors. Pamukkale Uni. Muh. Bilim Derg. 27(1), 70-77 (2021)
  • 14. Ozkurt, B.: Structural, Electric and Magnetic Properties of Bi2Sr2Ag0.03Ca1Cu2Oy Ceramics Modified by Post-annealing” Journal of Superconductivity and Novel Magnetism (2018) 31:2459–2464
  • 15. Khaled, J., Sato, R., Komatsu, T.: Effect of addition on the glass-forming ability and superconducting properties ob Bi-Sr-Ca-Cu-O System. Journal of the Ceramic Society of Japan. 105 [3], 265-268 (1997)
  • 16. Kazin, P. E., Poltavets, V. V., Poltavets, O. N., Kovalevsky, A. A., Tretyakov, Y.D., Jansen, M.: Formation of Bi-2212 phase and phase assemblage in Ga-doped BSCCO system. Physica C, 324, 30–38 (1999)
  • 17. Kannan, Y., Bansal, C., Rajaram, G. “Effect Of Ga203 Substıtutıon in Bi-2212 Superconductor” Solid State Communications. 81, 1, 109-113, 1992.
  • 18. Kim, K.T., Jang S.H., Park, E.C., Joo, J., Kim, H., Hong, G.-W., Kim C.-J., Kim H.-R., Hyun, O.-B.: Fabrication and characterization of bulk BSCCO(2212)-SrSO4 composites by the melt casting process. Physica C. 445–448, 447–450 (2006)
  • 19. Dongqi, L., Hui, Z., Xiang, G., Shengan, Y., Qingming, C.,: “Effect of the fabrication process on the electrical properties of polycrystalline Bi1.7Pb0.3Sr2Ca2Cu3O10. Ceramics International. 42 1728–1732 (2016)
  • 20. Bock, J., Bestgen, H., Elscbner, S., Preisler, E.:Large shaped parts of melt cast BSCCO for applications in electrical engineering. Transactions on applied superconductivity. 3-l (1993)
  • 21. Z. Ozhanli, E., Yakinci, M. E., Balci, Y., Aksan, M. A.: Crystallization activation energy and hole concentration properties of the Bi2Sr2CaxCdxCu2O8+y Glass-Ceramic Superconductor Rods. Journal of Superconductivity: Incorporating Novel Magnetism. 15, 6 (2002)
  • 22. Yanmaz, E., Harris, I. R., Abell, J. S.: Direct current zoning (DCZ) and direct current annealing (DCA) of melt-cast Bi-Pb-Sr-Ca-Cu-O rods. Journal of AUoys and Compounds. 185, 311-320 (1992)
  • 23. Tsukamoto, T., Inada, R., Inagaki, N., Andoh, H., Sugiura, T., Oota, .: Alternating-current transport losses of melt-cast processed Bi-2212 bulk superconductor bars. Supercond. Sci. Technol. 16 1246–1251 (2003)
  • 24. Dongqi, L., Hui, Z., Xiang, G., Shengan, Y., Qingming, C.: Effect of the fabrication process on the electrical properties of polycrystalline Bi1.7Pb0.3Sr2Ca2Cu3O10” Ceramics International42(2016)1728–1732
  • 25. Kayed, T. S., Calınlı, N., Aksu, E., Koralay, H., Günen, A., Ercan, İ., Aktürk, S., Çavdar, Ş.: Microstructural, thermal, and electrical properties of Bi1.7V0.3Sr2Ca2Cu3Ox glass-ceramic superconductor. Cryst. Res. Technol. 39, 12, 1063 – 1069 (2004)
  • 26. Hanjın, L., Byrne, J. G.: Effect of precursor history on synthesis of high-T BPSCCO superconductor Journal of Materials Science 31, 234.9-2352 (1996)
  • 27. Koralay, H., Çavdar, Ş., Arslan, A., Ozturk, O., Tasci, A.T., Tugluoglu, N.: Experimental and theoretical approaches for magnetic, superconducting and structural characterization of Bi1.75Pb0.25Sr2Ca2Cu3-xSnxO10+y glass-ceramics. Cryogenics. 88 17–21(2017)
  • 28. Semenenkol, B., Camargo1, B. C., Setzer, A., ·Bohlmann, W., Kopelevich, Y., Esquinazi, P. D.: Magnetization of Bi2Sr2CaCu2O8+δ micrometer thin ring and ıts depinning line. Journal of Superconductivity and Novel Magnetism.33:2669–2678 (2020)
  • 29. Francesca, I.V.,· Hannah, B.,·Carlo, A., · Roland, S.: Effect of In2O3 on the grain connectivity and superconducting behavior of Bi2Sr2−xInxCaCu2O8+d. SN Applied Sciences 1:96 (2019)
  • 30. Ozturk, O., Asikuzun, E., Tasci, A.T., Gokcen, T., Ada, H., Koralay, H. Cavdar, S.: Comparison of Vickers microhardness of undoped and Ru doped BSCCO glass ceramic materials. Journal of Materials Science: Materials in Electronics 29:3957–3966 (2018)
  • 31. Ozturk, O., Gokcen, T., Cavdar, S., Koralay, H., Tasci, A. T.: A study on nucleation, crystallization kinetics, microstructure and mechanical properties of Ru–Bi partial substituted BSCCO glass-ceramics. J Therm Anal Calorim 123:1073–1082 (2016)
  • 32. Awad, R., Abou-Aly, A.I., Kamal, M., Anas, M.: Mechanical properties of (Cu0.5Tl0.5)-1223. Supercond Nov Magn. 24:1947–56 (2011)
  • 33. Sangwal K.: On the reverse indentation size effect and microhardness measurement of solids. Mater Chem Phys. 63:145–52 (2000)
  • 34. Khalil, S. M.: Influence of isothermal hot pressing-doping treatment on the electrical and mechanical properties of bulk Bi-Sr-Ca-Cu-O” AIP Advances 2, 042183 (2012)
  • 35. Sangwal, K., Surowska, B.: Study of indentation size effect and microhardness of SrLaAlO4 and SrLaGaO4 single crystals. Materials Research Innovations, 7:2, 91-104 (2003)
  • 36. Hays, C., Kendall, E. G.: An Analysis of Knoop Microhardness. Metallography, 6, 275-282 ( 1973).
  • 37. Gane, N., Bowden, F. P.: Microdeformation of Solids. Journal of Applied Physics, 39, 1432-1435 (1968)
  • 38 Awad, R., Abou-Aly, A. I., Kamal, M., Anas, M.: Mechanical Properties of (Cu0.5Tl0.5)-1223 Substituted by Pr. J. Supercond. Nov. Magn., 24: 1947-1956 (2011).
  • 39. Li, H., R. Bradt, C.: The Microhardness indentation load/size effect in rutile and cassiterite single crystals. Journal of Materials Science, 28, 917-926 (1993)
Toplam 39 adet kaynakça vardır.

Ayrıntılar

Birincil Dil Türkçe
Bölüm Tasarım ve Teknoloji
Yazarlar

Şükrü Çavdar 0000-0001-6079-7048

Selçuk İzmirli 0000-0001-8973-2897

Neslihan Turan 0000-0001-8933-2762

Haluk Koralay 0000-0001-7893-344X

Proje Numarası 05/2016-05
Yayımlanma Tarihi 30 Eylül 2022
Gönderilme Tarihi 8 Haziran 2022
Yayımlandığı Sayı Yıl 2022 Cilt: 10 Sayı: 3

Kaynak Göster

APA Çavdar, Ş., İzmirli, S., Turan, N., Koralay, H. (2022). Bi-Ga Kısmi Yer Değiştirme Etkisinin Manyetik, Mekanik ve Mikroyapısal Özellikler Bi(1,8-x)Pb0,2GaxSr2CaCu2Oy Süperiletken Üzerinde İncelenmesi. Gazi Üniversitesi Fen Bilimleri Dergisi Part C: Tasarım Ve Teknoloji, 10(3), 423-438. https://doi.org/10.29109/gujsc.1127485

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