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Ceramic Processing of NBC Nanometric Powders Obtained by High Energy Milling and by Reactive Milling
Online since: August 2012
Authors: José Carlos Bressiani, Ana Helena de Almeida Bressiani, Karolina Pereira dos Santos Tonello, Vânia Trombini
Sternitzke: Journal of the European Ceramic Society Vol. 17 (1997), p. 1061.
,[] A.R.
Ranganathan: International Materials Reviews Vol. 43 (1998), p. 101
Podda and D.Minichelli: Journal of the European Ceramic Society Vol. 19 (1999), p. 347. ].
Wu: Materials Science and Engineering A Vols. 375-377 (2004), p. 911. ] Due to high energy the process of obtaining nanometric crystalline structures can be separated in two routes.[1,[] G.B.
Cao: Chemical Engineering Science Vol. 61 (2006), p. 3746. ], so the breakage is the main process to reduce particles, Figure 3.
Ranganathan: International Materials Reviews Vol. 43 (1998), p. 101
Podda and D.Minichelli: Journal of the European Ceramic Society Vol. 19 (1999), p. 347. ].
Wu: Materials Science and Engineering A Vols. 375-377 (2004), p. 911. ] Due to high energy the process of obtaining nanometric crystalline structures can be separated in two routes.[1,[] G.B.
Cao: Chemical Engineering Science Vol. 61 (2006), p. 3746. ], so the breakage is the main process to reduce particles, Figure 3.
Online since: March 2014
Authors: Jiang Bo Wen, Sheng Huang, Hong Jie Wang
Journal of the European Ceramic Society, 1991, 8(4): 197-213
[3] Li X, Yin X, Zhang L, et al.
Materials Science and Engineering: A, 2009, 500(1): 63-69 [4] Bergman B, Heping H.
Ceramics International, 1981, 7: 13-18 [6] M.Mitomo, S.Ono, T.Asami, S.J.K.Kang.
Ceramics International, 1989, 15: 345-350 [7] Wu S, Li X.
International Journal of Refractory Metals and Hard Materials, 2012 [8] Tong Q, Wang J, Li Z, et al.
Materials Science and Engineering: A, 2009, 500(1): 63-69 [4] Bergman B, Heping H.
Ceramics International, 1981, 7: 13-18 [6] M.Mitomo, S.Ono, T.Asami, S.J.K.Kang.
Ceramics International, 1989, 15: 345-350 [7] Wu S, Li X.
International Journal of Refractory Metals and Hard Materials, 2012 [8] Tong Q, Wang J, Li Z, et al.
Online since: March 2023
Authors: Wisam Naji Hasan, Mohammed Naji Al-Aaraji, Kutaiba Al-Marzoki
Effects of La+3 and Sc+3 Ions on Structure and Microstructure of PZT Ceramics for Energy Storage Applications
Mohammed Naji Al-Aaraji1,a*, Wisam Naji Hasan2,b
and Kutaiba Al-Marzoki3,c
1,3Department of Ceramic Engineering and Building Materials, College of Materials Engineering, University of Babylon, Al Hilla, Iraq.
2College of Engineering\ Al-Musayab, University of Babylon, Iraq.
Acknowledgements The authors gratefully acknowledge the assistance from staff at the laboratories of department of ceramic engineering and building materials, college of materials engineering, University of Babylon.
Haertling, "Ferroelectric ceramics: history and technology," Journal of the American Ceramic Society, vol. 82, no. 4, pp. 797-818, 1999
Senos, "Microstructural design of PZT ceramics," Journal of the European Ceramic Society, vol. 25, no. 12, pp. 2207-2210, 2005
Zelikha et al., "Phase structure, dielectric and piezoelectric properties of modified-PZT ceramics near the morphotropic phase boundary," International Journal of Pharmaceutical, Chemical & Biological Sciences, vol. 4, no. 3, 2014
Acknowledgements The authors gratefully acknowledge the assistance from staff at the laboratories of department of ceramic engineering and building materials, college of materials engineering, University of Babylon.
Haertling, "Ferroelectric ceramics: history and technology," Journal of the American Ceramic Society, vol. 82, no. 4, pp. 797-818, 1999
Senos, "Microstructural design of PZT ceramics," Journal of the European Ceramic Society, vol. 25, no. 12, pp. 2207-2210, 2005
Zelikha et al., "Phase structure, dielectric and piezoelectric properties of modified-PZT ceramics near the morphotropic phase boundary," International Journal of Pharmaceutical, Chemical & Biological Sciences, vol. 4, no. 3, 2014
Online since: September 2020
Authors: Zainal Arifin Ahmad, Chee Lung Chin
Rheological and Fired Properties of Malaysia Clay From Ipoh (Perak) and its Application in Ceramic Tiles
Chee Lung CHIN1,2,a * and Zainal Arifin AHMAD2,b
1Ceramic Research Company Sdn Bhd, Lot 7110 (Guocera – Hong Leong Group), Jalan Kapar, 42100 Klang, Selangor, Malaysia
2Structural Materials Niche Area, School of Materials and Mineral Resources Engineering, Engineering Campus, Universiti Sains Malaysia, 14300 Nibong Tebal, Penang, Malaysia
aclchin@guoceratile.com.my, bsrzainal@usm.my
Keywords: Clay; Zeta potential; Water absorption; Fired colour
Abstract Clay is an important raw material in manufacturing of ceramic products especially ceramic tiles.
Sow, Rheological behavior and fired properties of Malaysia clay from Mersing (Johor) in application to manufacturing of ceramic tiles, International Journal of Current Science, Enginering & Technology, Special Issue (2018) 160 - 165
Holanda, Densification behavior of a red firing Brazilian kaolinitic clay, Ceramic International 31 (2005) 757 – 763
Leong, Rheological and zeta potential of kaolin and bentonite composite slurries, Colloid and Surface A: Physiochemical and Engineering Aspect 436 (2013) 530 – 541
Holando, Densification behavior of a red firing Brazilian kaolinitic clay, Ceramic International 31 (2005) 757 – 763
Sow, Rheological behavior and fired properties of Malaysia clay from Mersing (Johor) in application to manufacturing of ceramic tiles, International Journal of Current Science, Enginering & Technology, Special Issue (2018) 160 - 165
Holanda, Densification behavior of a red firing Brazilian kaolinitic clay, Ceramic International 31 (2005) 757 – 763
Leong, Rheological and zeta potential of kaolin and bentonite composite slurries, Colloid and Surface A: Physiochemical and Engineering Aspect 436 (2013) 530 – 541
Holando, Densification behavior of a red firing Brazilian kaolinitic clay, Ceramic International 31 (2005) 757 – 763
Online since: July 2016
Authors: Fei Chen, Qiang Shen, Lian Meng Zhang, K. Eltayeb, Young Hwan Han, Dong Qin Jin
Journal of the American Ceramic Society.69(1986) i-iv
Journal of the American Ceramic Society.83(2000) 461-487
Ceramics international.29 (2003) 229-232
Materials Science and Engineering: A.483 (2008) 270-273
Ceramics International.39(2013) 673-682
Journal of the American Ceramic Society.83(2000) 461-487
Ceramics international.29 (2003) 229-232
Materials Science and Engineering: A.483 (2008) 270-273
Ceramics International.39(2013) 673-682
Online since: October 2008
Authors: B. Basu, G.B. Raju
Cutler, "Engineering Properties of borides, in Engineered materials handbook," vol. 4,
ceramics and glasses, ASM international, The Materials Information Society, USA (1991).
6.
Subramanyam: Materials Science and Engineering A 362 (2003), 145-151. 16.
Castro: Materials Science and Engineering A216 (1996), 185-192. 37.
Franz: Materials Science and Engineering A, 105/106 (1988), 125-129. 54.
Upadhyaya: Materials Science and Engineering A, 279 (2000), 275-281. 60.
Subramanyam: Materials Science and Engineering A 362 (2003), 145-151. 16.
Castro: Materials Science and Engineering A216 (1996), 185-192. 37.
Franz: Materials Science and Engineering A, 105/106 (1988), 125-129. 54.
Upadhyaya: Materials Science and Engineering A, 279 (2000), 275-281. 60.
Online since: May 2011
Authors: Xin Yan Yue, Bi Shuang Chen, Jing Zhao, Hong Qiang Ru, Wei Wang
They have shown the potential for use in various industrial fields, such as military, engineering, nuclear energy, and high-temperature thermoelectric conversion [1-4].
Yoshizawa: Journal of the Ceramic Society of Japan Vol. 116(1360) (2008), p.1319 [3] G.
Wang: Ceramics International Vol. 36 (2010), p.167 [5] S.
Sun: Ceramics International Vol. 36 (2010), p. 1297 [7] X.
Key Engineering Materials Vol. 434-435 (2010), p. 50 [8] J.
Yoshizawa: Journal of the Ceramic Society of Japan Vol. 116(1360) (2008), p.1319 [3] G.
Wang: Ceramics International Vol. 36 (2010), p.167 [5] S.
Sun: Ceramics International Vol. 36 (2010), p. 1297 [7] X.
Key Engineering Materials Vol. 434-435 (2010), p. 50 [8] J.
Online since: July 2015
Authors: Bei Zhi Li, Chong Jun Wu, Jian Guo Yang, Steven Y. Liang
Introduction
Advanced ceramics such as silicon carbide are now being increasingly used in various engineering applications such as bearings, valves, rotors and optical components, etc.
Grinding characteristics in high speed grinding of engineering ceramics with brazed diamond wheels.
[9] T.G Bifano, T.A Dow, R.O Scattergood, Ductile-regime grinding: A new technology for machining brittle materials[J], Journal of Engineering for Industry Transactions of the ASME, 1991,113(2):184-189
Yin, Grinding Characteristics of Engineering Ceramics in High Speed Regime, International Journal of Abrasive Technology, Vol.1(2007), pp.78-93 [11] C.J.
Temperature measurement in high efficiency deep grinding, International Journal of Machine Tools & Manufacture 45 (2005) 1231–1245 [18] T.
Grinding characteristics in high speed grinding of engineering ceramics with brazed diamond wheels.
[9] T.G Bifano, T.A Dow, R.O Scattergood, Ductile-regime grinding: A new technology for machining brittle materials[J], Journal of Engineering for Industry Transactions of the ASME, 1991,113(2):184-189
Yin, Grinding Characteristics of Engineering Ceramics in High Speed Regime, International Journal of Abrasive Technology, Vol.1(2007), pp.78-93 [11] C.J.
Temperature measurement in high efficiency deep grinding, International Journal of Machine Tools & Manufacture 45 (2005) 1231–1245 [18] T.
Online since: October 2010
Authors: Jan A. Puszynski, Alan Degraw
This review focuses on scale-up and production initiatives undertaken by international companies and institutions.
A numerous comprehensive reviews on accomplishments of Russian scientists and engineers can be found in the literature [9,10].
Ukrainian Academy of Sciences; Mechnikov national University; Academy of Metal Engineering Greece Complex oxides.
Reactive Nano Technologies’s patented NanoFoil is a new class of nano-engineered material.
Merzhanov, International Journal of Self-Propagating High-Temperature Synthesis, Vol. 2, (1993), p. 113
A numerous comprehensive reviews on accomplishments of Russian scientists and engineers can be found in the literature [9,10].
Ukrainian Academy of Sciences; Mechnikov national University; Academy of Metal Engineering Greece Complex oxides.
Reactive Nano Technologies’s patented NanoFoil is a new class of nano-engineered material.
Merzhanov, International Journal of Self-Propagating High-Temperature Synthesis, Vol. 2, (1993), p. 113
Online since: September 2023
Authors: Donanta Dhaneswara, Fajar Fatriansyah Jaka, Nur Muhammad Ariq Athallah, Bambang Suharno, Muhammad Anis, Kristanto Wahyudi, Ahmad Azhari
One of the machines used to measure inclusions and fluidity is the Inclusion and Fluidity Measurement Tools (APIF), located in the Metallurgical and Materials Engineering Department at Universitas Indonesia.
Dhaneswara, “The Role of Al2O3 Nanoparticles Addition on Characteristic of Al6061 Composite Produced by Stir Casting Process,” International Journal of Materials Science and Engineering, vol. 6, no. 2, pp. 39–47, Jun. 2018, doi: 10.17706/ijmse.2018.6.2.39-47
Erlangga, “Characterization of Karangnunggal kaolin as raw materials for ceramic,” Indonesian Mining Journal, vol. 19, no. 2, pp. 89–96, Nov. 2017, doi: 10.30556/imj.vol19.no2.2016.416
Bergström, “Novel Powder-Processing Methods for Advanced Ceramics,” Journal of the American Ceramic Society, vol. 83, no. 7, pp. 1557–1574, 2000
SUZUKI, “Microstructural control of porous Al2TiO5 by using various starches as pore-forming agents,” Journal of the Ceramic Society of Japan, vol. 122, no. 1427, pp. 565–569, 2014, doi: 10.2109/jcersj2.122.565
Dhaneswara, “The Role of Al2O3 Nanoparticles Addition on Characteristic of Al6061 Composite Produced by Stir Casting Process,” International Journal of Materials Science and Engineering, vol. 6, no. 2, pp. 39–47, Jun. 2018, doi: 10.17706/ijmse.2018.6.2.39-47
Erlangga, “Characterization of Karangnunggal kaolin as raw materials for ceramic,” Indonesian Mining Journal, vol. 19, no. 2, pp. 89–96, Nov. 2017, doi: 10.30556/imj.vol19.no2.2016.416
Bergström, “Novel Powder-Processing Methods for Advanced Ceramics,” Journal of the American Ceramic Society, vol. 83, no. 7, pp. 1557–1574, 2000
SUZUKI, “Microstructural control of porous Al2TiO5 by using various starches as pore-forming agents,” Journal of the Ceramic Society of Japan, vol. 122, no. 1427, pp. 565–569, 2014, doi: 10.2109/jcersj2.122.565