Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ

Turgay Tehçi; Fatih Çalışkan; Engin Kocaman; Zafer Tatlı

Research Article

Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ

Year 2018, Volume: 13 Issue: 3, 190 - 200, 23.07.2018

Turgay Tehçi Fatih Çalışkan Engin Kocaman Zafer Tatlı

Abstract

Silisyum nitrür (Si₃N₄)
seramikler, yüksek sertlik, iyi mekanik dayanım, üstün korozyon direnci ve
yüksek sıcaklıklara karşı iyi direnç göstermeleri nedeniyle, hem termo mekanik
hem de elektronik uygulama alanlarında büyük önem kazanmıştır. Bu çalışmada Si₃N₄ matrisinin
işlene bilirliğini arttırmak amacıyla, Si₃N₄ matrisine
dağıtılmış ince bor nitrür (BN) yapıları kombine bir şekilde üretilmiştir. Si₃N₄ -
BN matrisinin konvensiyonel üretim teknikleri ile üretilmesinin maliyetli
olması sebebiyle bu çalışmada karbotermal indirgeme ve nitridasyon (KTİN)
yöntemi kullanılmıştır. Farklı şartlarda mekanik aktivasyon yapılarak aktive
edilen tozlar kullanılarak KTİN reaksiyon sonucu sentezlenen tozlara yapılan
XRD analizleri, yapının Si₃N₄ ve BN fazlarından
müteşekkil olduğunu göstermiştir. Tane morfolojisi belirlemek için yapılan SEM
analizi ise ince BN tanelerinin homojen bir şekilde Si₃N₄ matrisine
dağılımının başarıldığı ortaya koymuştur.

Keywords

BN, Si3N4, Seramik Kompozit, Mekanik Aktivasyon, Karbotermal İndirgeme ve Nitridasyon Yöntemi(KTİN)

References

[1] Dongxu, Y., Huanbei, C., Kai-hui, Z., Yongfeng, X., Jinwei, Y., Hanqin, L., and Yu-Ping, Z., (2018). High Temperature Mechanical Properties of Porous Si3N4Prepared via SRBSN. Ceramics International. In Press, Accepted Manuscript—Note to users.
[2] Kawai, C. and Yamakawa, A.,, (1997). Effect of Porosity and Microstructure on the Strength of Si3N4:Designed Microstructure for High Strength, High Thermal Shock Resistance, and Facile Machining, J. Am. Ceram. Soc, 80:2705–2708.
[3] Çalışkan, F., Tehçi, T., Demir, A., and Tatlı, Z., (2017). Obtaining Homogeneous Distributed BNp in Si3N4 Matrix Synthesised by CRN Process. International Conference on Advances and Innovations in Engineering (ICAIE), Elazığ, 1092-1094.
[4] Chen, W., Gao, Y., Ju, F., and Wang, Y., (2010). Tribochemical Behavior of Si3N4–hBN Ceramic Materials with Water Lubrication, Tribol lett, 229-238.
[5] Haffmann, M.J. and Petzow, G., (1994). Tailored Microstructures of Silicon Nitride Ceramics Pure & Appl. Chem, Vol:66 No:9, pp:1807-1814.
[6] Lange, F.F., (1979). Fracture Toughness of Si3N4 as a Function of the Initial β-contents. J. Am. Ceram. Soc., 62:428–430.
[7] Genova, L.A., Izhevskyi, V.A., and Bressiani, J.C., (2008). Effect of Processing Variables on Synthesis of β-Si3N4 Particles, Journal of the European Ceramic Society 28, 295–301.
[8] Hoffmann, M.J. and Petzow, G., (1994). Tailored Microstructures of Silicon Nitride Ceramics. Pure Appl. Chem., 66, 1807–1814.
[9] Kim, K.J., Cho, T.J., and Kim, Y.T., (2015). Electrical and Thermal Properties of Silicon Carbide–Boron Nitridecomposites Prepared without Sintering Additives. Journal of the European Ceramic Society 35, 4423–4429.
[10] Sinclair, W. and Simmons., H., (1987). Microstructure and Thermal Shock Behavior of BNcomposites, J. Mater. Sci. Lett. 6, 627–629.
[11] Gangopadhyay, A., Jahanmir, S., and Peterson., M.B., (1997). Self-lubricating Ceramic Matrix Composites, in: S. Jahanmir (Ed.), Friction and Wear of Ceramics, Marcel Dekker, New York, pp:163–197.
[12] Carrapichano, J.M., Gomes, J.R., and Silva, R.F., (2002). Tribologicals Behaviour of Si3N4–BN Ceramic Materials for Dry Sliding Applications, Wear 253, 1070–1076.
[13] Mingxu, L., Liu, C.F., Zhang, J., Tao, R., Zhang, Q., and Qi, Q., (2018). Microstructure and Mechanical Properties of BN-Si3N4 and AlON Joints Brazed with Ag-Cu-Ti Filler Alloy. Journal of the European Ceramic Society 38, 1265–1270.
[14] Wang, S., Jia, D., Yang, Z., et al. (2013). Effect of BN Content on Microstructures, Mechanical and Dielectric Properties of Porous BN/Si3N4 Composite Ceramics Prepared by Gel Casting, Ceram. Int. 39, 4231–4237.
[15] Demir, A., Tatli, Z., Caliskan, F., and Kurt., A.O., (2007). Carbothermal Reduction and Nitridation of Quartz Mineral for the Production of Alpha Silicon Nitride Powders, Materials Science Forum 554, 163-168.

Year 2018, Volume: 13 Issue: 3, 190 - 200, 23.07.2018

Turgay Tehçi Fatih Çalışkan Engin Kocaman Zafer Tatlı

Abstract

References

[1] Dongxu, Y., Huanbei, C., Kai-hui, Z., Yongfeng, X., Jinwei, Y., Hanqin, L., and Yu-Ping, Z., (2018). High Temperature Mechanical Properties of Porous Si3N4Prepared via SRBSN. Ceramics International. In Press, Accepted Manuscript—Note to users.
[2] Kawai, C. and Yamakawa, A.,, (1997). Effect of Porosity and Microstructure on the Strength of Si3N4:Designed Microstructure for High Strength, High Thermal Shock Resistance, and Facile Machining, J. Am. Ceram. Soc, 80:2705–2708.
[3] Çalışkan, F., Tehçi, T., Demir, A., and Tatlı, Z., (2017). Obtaining Homogeneous Distributed BNp in Si3N4 Matrix Synthesised by CRN Process. International Conference on Advances and Innovations in Engineering (ICAIE), Elazığ, 1092-1094.
[4] Chen, W., Gao, Y., Ju, F., and Wang, Y., (2010). Tribochemical Behavior of Si3N4–hBN Ceramic Materials with Water Lubrication, Tribol lett, 229-238.
[5] Haffmann, M.J. and Petzow, G., (1994). Tailored Microstructures of Silicon Nitride Ceramics Pure & Appl. Chem, Vol:66 No:9, pp:1807-1814.
[6] Lange, F.F., (1979). Fracture Toughness of Si3N4 as a Function of the Initial β-contents. J. Am. Ceram. Soc., 62:428–430.
[7] Genova, L.A., Izhevskyi, V.A., and Bressiani, J.C., (2008). Effect of Processing Variables on Synthesis of β-Si3N4 Particles, Journal of the European Ceramic Society 28, 295–301.
[8] Hoffmann, M.J. and Petzow, G., (1994). Tailored Microstructures of Silicon Nitride Ceramics. Pure Appl. Chem., 66, 1807–1814.
[9] Kim, K.J., Cho, T.J., and Kim, Y.T., (2015). Electrical and Thermal Properties of Silicon Carbide–Boron Nitridecomposites Prepared without Sintering Additives. Journal of the European Ceramic Society 35, 4423–4429.
[10] Sinclair, W. and Simmons., H., (1987). Microstructure and Thermal Shock Behavior of BNcomposites, J. Mater. Sci. Lett. 6, 627–629.
[11] Gangopadhyay, A., Jahanmir, S., and Peterson., M.B., (1997). Self-lubricating Ceramic Matrix Composites, in: S. Jahanmir (Ed.), Friction and Wear of Ceramics, Marcel Dekker, New York, pp:163–197.
[12] Carrapichano, J.M., Gomes, J.R., and Silva, R.F., (2002). Tribologicals Behaviour of Si3N4–BN Ceramic Materials for Dry Sliding Applications, Wear 253, 1070–1076.
[13] Mingxu, L., Liu, C.F., Zhang, J., Tao, R., Zhang, Q., and Qi, Q., (2018). Microstructure and Mechanical Properties of BN-Si3N4 and AlON Joints Brazed with Ag-Cu-Ti Filler Alloy. Journal of the European Ceramic Society 38, 1265–1270.
[14] Wang, S., Jia, D., Yang, Z., et al. (2013). Effect of BN Content on Microstructures, Mechanical and Dielectric Properties of Porous BN/Si3N4 Composite Ceramics Prepared by Gel Casting, Ceram. Int. 39, 4231–4237.
[15] Demir, A., Tatli, Z., Caliskan, F., and Kurt., A.O., (2007). Carbothermal Reduction and Nitridation of Quartz Mineral for the Production of Alpha Silicon Nitride Powders, Materials Science Forum 554, 163-168.

There are 15 citations in total.

Details

Primary Language	Turkish
Subjects	Engineering
Journal Section	Articles
Authors	Turgay Tehçi Fatih Çalışkan Engin Kocaman Zafer Tatlı
Publication Date	July 23, 2018
Published in Issue	Year 2018 Volume: 13 Issue: 3

Cite

APA	Tehçi, T., Çalışkan, F., Kocaman, E., Tatlı, Z. (2018). Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ. Engineering Sciences, 13(3), 190-200.
AMA	Tehçi T, Çalışkan F, Kocaman E, Tatlı Z. Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ. Engineering Sciences. July 2018;13(3):190-200.
Chicago	Tehçi, Turgay, Fatih Çalışkan, Engin Kocaman, and Zafer Tatlı. “Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ”. Engineering Sciences 13, no. 3 (July 2018): 190-200.
EndNote	Tehçi T, Çalışkan F, Kocaman E, Tatlı Z (July 1, 2018) Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ. Engineering Sciences 13 3 190–200.
IEEE	T. Tehçi, F. Çalışkan, E. Kocaman, and Z. Tatlı, “Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ”, Engineering Sciences, vol. 13, no. 3, pp. 190–200, 2018.
ISNAD	Tehçi, Turgay et al. “Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ”. Engineering Sciences 13/3 (July 2018), 190-200.
JAMA	Tehçi T, Çalışkan F, Kocaman E, Tatlı Z. Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ. Engineering Sciences. 2018;13:190–200.
MLA	Tehçi, Turgay et al. “Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ”. Engineering Sciences, vol. 13, no. 3, 2018, pp. 190-0.
Vancouver	Tehçi T, Çalışkan F, Kocaman E, Tatlı Z. Sİ3N4-BN KOMPOZİT TOZ SENTEZİNDE MEKANİK AKTİVASYONUN Sİ3N4 FAZ OLUŞUM KİNETİĞİNE ETKİSİ. Engineering Sciences. 2018;13(3):190-20.