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Online since: October 2022
Authors: Khairul Anuar Shariff, Zuryati Ab. Ghani, Tang Liszen, Anis Syamimi Johari
Kocjan, Ageing of dental zirconia ceramics, Journal of the European Ceramic Society, 32 (11), (2012) 2613–2622
Surdu, Influence of hot isostatic pressing on ZrO2–CaO dental ceramics properties, International Journal of Pharmaceutics, 510(2), (2016) 439–448
Yoruç, Effects of binder and compression strength on molding parameters of dental ceramic blocks, Ceramics International, 46(8), (2020) 10186-10193
Shi, Microstructure and mechanical properties of 3Y-TZP dental ceramics fabricated by selective laser sintering combined with cold isostatic pressing, International Journal of Lightweight Materials and Manufacture, 1(4), (2018) 239–245
Soboyejo, Mechanical properties, modelling and design of porous clay ceramics, Materials Science and Engineering A, 558, (2012) 21–29
Surdu, Influence of hot isostatic pressing on ZrO2–CaO dental ceramics properties, International Journal of Pharmaceutics, 510(2), (2016) 439–448
Yoruç, Effects of binder and compression strength on molding parameters of dental ceramic blocks, Ceramics International, 46(8), (2020) 10186-10193
Shi, Microstructure and mechanical properties of 3Y-TZP dental ceramics fabricated by selective laser sintering combined with cold isostatic pressing, International Journal of Lightweight Materials and Manufacture, 1(4), (2018) 239–245
Soboyejo, Mechanical properties, modelling and design of porous clay ceramics, Materials Science and Engineering A, 558, (2012) 21–29
Online since: February 2011
Authors: Nur Azam Badarulzaman, Z. Harun, N.H. Kamarudin, M.S. Wahab
Badarulzaman1 and M.S.Wahab1
Faculty of Mechanical and Manufacturing Engineering,
Universiti Tun Hussein Onn Malaysia, Malaysia.
Scherer: Journal of American Ceramic Society, 73 (1990), p. 3-14
Ahmadibeni: International Journal of Civil Engineering, Vol. 7,(2009)
Materials Science and Engineering, Vol. 52(1982), p.173-179
El- Reefy: Chemical Engineering and Processing, Vol 43(2004), p.193-201
Scherer: Journal of American Ceramic Society, 73 (1990), p. 3-14
Ahmadibeni: International Journal of Civil Engineering, Vol. 7,(2009)
Materials Science and Engineering, Vol. 52(1982), p.173-179
El- Reefy: Chemical Engineering and Processing, Vol 43(2004), p.193-201
Online since: June 2025
Authors: Póliska Csaba, Akerele Ayodeji Usman
Experimental
Sample Preparations: The study was conducted at the Institute of Energy, Ceramic & Polymer Technology, Faculty of Chemical & Materials Engineering, University of Miskolc.
Yio, “Production of foamed glass-ceramics using furnace bottom ash and glass,” Ceramics International, 2020
Chuanwei Li, “Study on preparation of glass-ceramics from municipal solid waste incineration (MSWI) fly ash and chromium slag,” Journal of Building Engineering, vol. 68, no. 106080, February 2023
Doré and Côte, “Thermal Properties According to Aggregate’s General Characteristics,” in Proceedings of the 18th International Conference on Cold Regions Engineering and 8th Canadian Permafrost Conference,, Reston, VA, USA,, 18–22 August 2019
Danish Kazmi, “Waste glass in civil engineering applications—A review,” International Journal of Applied Ceramic Technology, vol. 17, no. 2, pp. 529-554, 2020
Yio, “Production of foamed glass-ceramics using furnace bottom ash and glass,” Ceramics International, 2020
Chuanwei Li, “Study on preparation of glass-ceramics from municipal solid waste incineration (MSWI) fly ash and chromium slag,” Journal of Building Engineering, vol. 68, no. 106080, February 2023
Doré and Côte, “Thermal Properties According to Aggregate’s General Characteristics,” in Proceedings of the 18th International Conference on Cold Regions Engineering and 8th Canadian Permafrost Conference,, Reston, VA, USA,, 18–22 August 2019
Danish Kazmi, “Waste glass in civil engineering applications—A review,” International Journal of Applied Ceramic Technology, vol. 17, no. 2, pp. 529-554, 2020
Online since: June 2012
Authors: Lei Zhang, Yun Wei Zhao, Zhuo Yang
Experimental investigation into electrorheological fluid-assisted polishing of glass–ceramic
Yunwei Zhao1, 2,a, Lei Zhang1,b and Zhuo Yang1
1 College of Mechanical Science and Engineering, Nanling Campus, Jilin University, Jilin Province, People’s Republic of China
2 Engineering Training Center, Beihua University, Jilin Province, People’s Republic of China
a jluzyw@yahoo.com.cn, b profzhanglei@yahoo.com.cn, cyangzhuodianyou@163.com
Keywords: ER, Polishing, Surface roughness, Electric field
Abstract.
Tsenter, et.al: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 3042-3058
Syoji: Journal of the International Societies for Precision Engineering and Nano technology Vol. 26 (2002), p. 370–380
Lee: Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1293-1299
Zhao: International Journal of Machine Tools and Manufacture Vol. 45 (2002), p. 1461-1467
Tsenter, et.al: Journal of Non-Crystalline Solids Vol. 356 (2010), p. 3042-3058
Syoji: Journal of the International Societies for Precision Engineering and Nano technology Vol. 26 (2002), p. 370–380
Lee: Journal of Materials Processing Technology Vol. 155-156 (2004), p. 1293-1299
Zhao: International Journal of Machine Tools and Manufacture Vol. 45 (2002), p. 1461-1467
Online since: February 2011
Authors: N.R. Rosli, Jariah Mohd Juoi, N.F. Ayoob, Zulkifli Mohd Rosli
Rosli1,d
1Department of Engineering Materials, Faculty of Manufacturing Engineering,
Universiti Teknikal Malaysia Melaka, Durian Tunggal, 76109 Melaka, Malaysia
anurfarizan_ayoob@yahoo.com, bjariah@utem.edu.my, czmr@utem.edu.my drifhan.rosli@gmail.com
Keywords: batch formulation, sintering optimization, pressure-less method and soda lime silica glass, mechanical properties and SEM.
“Sintered glass-ceramics from mixtures of wastes” Ceramics International.
“Sintered feldspar glass-ceramics and glass-ceramic matrix composites” Ceramic International.
“Production of glass ceramics obtained from industrial wastes by means of controlled nucleation and crystallization” Chemical Engineering Journal.
“Optimisation of sintered glass-ceramics from an industrial waste glass” Ceramic International.
“Sintered glass-ceramics from mixtures of wastes” Ceramics International.
“Sintered feldspar glass-ceramics and glass-ceramic matrix composites” Ceramic International.
“Production of glass ceramics obtained from industrial wastes by means of controlled nucleation and crystallization” Chemical Engineering Journal.
“Optimisation of sintered glass-ceramics from an industrial waste glass” Ceramic International.
Online since: October 2014
Authors: Hong Jiang, Zheng Cao, Lin Yu, Yang Shen, Chang Jiu Li, Xiu Quan Zhao
Investigation of nucleation and crystallization behavior of Li2O-MgO-Al2O3-SiO2-MgF2 glass-ceramics system
Zheng Cao1,a, Xiuquan Zhao1,b, Hong Jiang1,c, Changjiu Li1*,d, Yang Shen1,e, Lin Yu2,f
1Spcial Glass Key Lab of Hainan Province,Hainan university,Hainan Haikou 570228
2Special Glass Engineering Research Center of Hainan Province,AVIC GLASS-AVIC(Hainan) special Glass Material Co..
SEM photographs of the glass-ceramics samples are presented in Fig.6.
References [1] Tao-yong Liu, Guo-hua Chen, Jun Song, Chang-lai Yuan, Crystallization kinetics and dielectric characterization of CeO2-added BaO–SrO–Nb2O5–B2O3–SiO2 glass-ceramics, Ceramics International, Volume 39, Issue 5, July 2013, Pages 5553-5559 [2] Guo-hua Chen, Tao-yong Liu, Chang-lai Yuan, Yun Yang, Chang-rong Zhou, Effect of BaF2 addition on crystallization kinetics and electrical properties of BaO–SrO–Nb2O5–B2O3–SiO2 glass–ceramics, Journal of Non-Crystalline Solids, Volume 378, 15 October 2013, Pages 241-246 [3] Debasis Pradip Mukherjee, Sudip Kumar Das, The influence of TiO2 content on the properties of glass ceramics: Crystallization, microstructure and hardness, Ceramics International, Volume 40, Issue 3, April 2014, Pages 4127-413 [4] Anuson Niyompan.
Crystallization characteristic of glass-ceramic made from electrolytic manganese residue[J].
Journal of Wuhan University of Technology-Mater.
SEM photographs of the glass-ceramics samples are presented in Fig.6.
References [1] Tao-yong Liu, Guo-hua Chen, Jun Song, Chang-lai Yuan, Crystallization kinetics and dielectric characterization of CeO2-added BaO–SrO–Nb2O5–B2O3–SiO2 glass-ceramics, Ceramics International, Volume 39, Issue 5, July 2013, Pages 5553-5559 [2] Guo-hua Chen, Tao-yong Liu, Chang-lai Yuan, Yun Yang, Chang-rong Zhou, Effect of BaF2 addition on crystallization kinetics and electrical properties of BaO–SrO–Nb2O5–B2O3–SiO2 glass–ceramics, Journal of Non-Crystalline Solids, Volume 378, 15 October 2013, Pages 241-246 [3] Debasis Pradip Mukherjee, Sudip Kumar Das, The influence of TiO2 content on the properties of glass ceramics: Crystallization, microstructure and hardness, Ceramics International, Volume 40, Issue 3, April 2014, Pages 4127-413 [4] Anuson Niyompan.
Crystallization characteristic of glass-ceramic made from electrolytic manganese residue[J].
Journal of Wuhan University of Technology-Mater.
Online since: November 2012
Authors: Xue Feng Zhang, Bao Wei Li, Ming Zhao, Hua Chen, Yong Sheng Du, Lei Bo Deng
Effect of CaO/SiO2 Ratio and TiO2 on Glass-Ceramics
Made From Steel Slag and Fly Ash
Baowei Li 1,a, Hua Chen 2,b, Ming Zhao1,c, Xuefeng Zhang 2,d,
Yongsheng Du 2,e, Leibo Deng 1,f
1 Inner Mongolia Key Laboratory for Utilization of Bayan Obo Multi-Metallic Resources:
Elected State Key Laboratory, Inner Mongolia University of Science and Technology, 014010 China
2 School of Mathematics, Physics and Biological Engineering, Inner Mongolia University
of Science &Technology, 014010 China
albaowei@126.com, bkidsea@163.com, cphilip@imust.cn, dxuefeng056@163.com, edys1111@imust.cn, fdlb19850703@163.com
Keywords: Glass Ceramics, Steel Slag, Fly Ash, CaO/SiO2, TiO2
Abstract.
The main properties of three glass ceramics GC1, GC2, GC3 and those reported for slag glass-ceramic, granite, marble are given in Table 3.
References [1] Erol M, Kucukbayrak S, Ersoy-Mericboyu A, et al. : Journal of the European Ceramic Society, Vol.21 (2001), p. 2835 [2] B W Li, Z Y Gao.
Effects of rare earth tailing content on microstructures of glass-ceramics, International conference of advances in metallurgical progress and materials, Ukraine, (2007) [3] T Zhao, B W,Li Z Y Gao, et al. : Materials Science and Engineering B, Vol. 170 (2010), p. 22 [4] Q Yao.
Nanjing University of Technology, (2005), In Chinese [5] Sarkar R, Singh N, Kumar S D: Bulletin of Materials Science, Vol. 33 (2010), p. 293 [6] B Y Li, D F Yang, Z Y Yang, et al: Journal of Jilin University (Earth Science Edit ion), Vol. 36(Sup.) (2006), p. 126, In Chinese [7] X F Zhang, L B Deng, B W Li: Non-ferrous Metals (part of the mining) Vol. 63 (2011), p.66, In Chinese [8] B W Li, L B Deng, X F Zhang: Journal of Inner Mongolia University of Science and Technology, Vol. 30 (2011), p.190, In Chinese [9] L Lu, Q Yao, Q Jiang, W Dong: Glass & Enamel, Vol. 6 (2005), p.28, In Chinese [10] L J Zhang, L Lu, Y Zhao: Materials for Mechanical Engineering, Vol.7 (2008), p.34, In Chinese [11] J Liu, J S Cheng, W H Zheng, et al. : Glass, Vol.6 (2005), p.18, In Chinese
The main properties of three glass ceramics GC1, GC2, GC3 and those reported for slag glass-ceramic, granite, marble are given in Table 3.
References [1] Erol M, Kucukbayrak S, Ersoy-Mericboyu A, et al. : Journal of the European Ceramic Society, Vol.21 (2001), p. 2835 [2] B W Li, Z Y Gao.
Effects of rare earth tailing content on microstructures of glass-ceramics, International conference of advances in metallurgical progress and materials, Ukraine, (2007) [3] T Zhao, B W,Li Z Y Gao, et al. : Materials Science and Engineering B, Vol. 170 (2010), p. 22 [4] Q Yao.
Nanjing University of Technology, (2005), In Chinese [5] Sarkar R, Singh N, Kumar S D: Bulletin of Materials Science, Vol. 33 (2010), p. 293 [6] B Y Li, D F Yang, Z Y Yang, et al: Journal of Jilin University (Earth Science Edit ion), Vol. 36(Sup.) (2006), p. 126, In Chinese [7] X F Zhang, L B Deng, B W Li: Non-ferrous Metals (part of the mining) Vol. 63 (2011), p.66, In Chinese [8] B W Li, L B Deng, X F Zhang: Journal of Inner Mongolia University of Science and Technology, Vol. 30 (2011), p.190, In Chinese [9] L Lu, Q Yao, Q Jiang, W Dong: Glass & Enamel, Vol. 6 (2005), p.28, In Chinese [10] L J Zhang, L Lu, Y Zhao: Materials for Mechanical Engineering, Vol.7 (2008), p.34, In Chinese [11] J Liu, J S Cheng, W H Zheng, et al. : Glass, Vol.6 (2005), p.18, In Chinese
Online since: January 2005
Authors: Qiang Li, Haisheng Zhong, Zhifeng Zhong, Ming Cheng
Then Ni-Zn ferrite ceramics were prepared
from the blend of both powders.
S.Shim, Journal of Alloys and Compounds 326(2001): 56~60 [5] M.
Reinen, Ceramics International 26 (2000): 507-512 [6] Y.
Wang, International Journal of Inorganic Materials 3 (2001): 1189~1192 [7] K.
Anthakumar, Materials Science and Engineering A355 (2003): 320~324 Samples ρ[g/cm3] μi Ms [emu/g] Hc [G] 0% 4.60 147 68.5 24.6 25% 4.81 164 74.5 22.1 50% 5.12 403 75.5 18.3 75% 5.15 266 78.9 18.9 100% 5.23 242 69.8 14.5 Table.1 Magnetic properties of Ni0.5Zn0.5Fe2O4 ferrite ceramics as a function of the ratio of nano-particles and ultra-fine powders
S.Shim, Journal of Alloys and Compounds 326(2001): 56~60 [5] M.
Reinen, Ceramics International 26 (2000): 507-512 [6] Y.
Wang, International Journal of Inorganic Materials 3 (2001): 1189~1192 [7] K.
Anthakumar, Materials Science and Engineering A355 (2003): 320~324 Samples ρ[g/cm3] μi Ms [emu/g] Hc [G] 0% 4.60 147 68.5 24.6 25% 4.81 164 74.5 22.1 50% 5.12 403 75.5 18.3 75% 5.15 266 78.9 18.9 100% 5.23 242 69.8 14.5 Table.1 Magnetic properties of Ni0.5Zn0.5Fe2O4 ferrite ceramics as a function of the ratio of nano-particles and ultra-fine powders
Online since: January 2018
Authors: Roman Koleňák, Igor Kostolný
In Journal of Alloys and Compounds, Vol. 627, 2015, pp. 268-275
In Materials Science and Engineering B25, 1994, pp. 39-46
In Materials Science and Engineering A290, 2000, pp. 186-189
In Ceramics International, Vol. 40, 2014, pp. 683-689 [9] KOLEŇÁK, R., ŠEBO, P., PROVAZNÍK, M., KOLEŇÁKOVÁ, M., ULRICH, K.
In Journal of Electronic Materials, Vol. 36, No. 9, 2007, pp. 1193-1199
In Materials Science and Engineering B25, 1994, pp. 39-46
In Materials Science and Engineering A290, 2000, pp. 186-189
In Ceramics International, Vol. 40, 2014, pp. 683-689 [9] KOLEŇÁK, R., ŠEBO, P., PROVAZNÍK, M., KOLEŇÁKOVÁ, M., ULRICH, K.
In Journal of Electronic Materials, Vol. 36, No. 9, 2007, pp. 1193-1199
Online since: September 2009
Authors: Bo Zhao, Yan Yan Yan, Jun Li Liu
Research on the Surface/subsurface Damages of ZTA Ceramics under
Two-Dimensional Ultrasonic Vibration Assisted Grinding
Yanyan Yana , Bo Zhaob and Junli Liuc
1
School of mechanical and power engineering, Henan Polytechnic university, Henan, China
a
yyyapple@126.com,
b
zhaob@hpu.edu.cn,
cyyapple@126.com
Keywords: ZTA ceramics; Grinding, Surface/subsurface damage, Ultrasonic vibration
Abstract.
Introduction Nano-zirconia toughened aluminium ceramics (ZTA ceramics) is a kind of high performance structural ceramics.
Surface Damages of ZTA Ceramics under TUVAG.
Tokura and et al.: Journal of Materials Processing Technology, Vol. 132 (2003) No.1-3, pp.353-364
Miller and et al.: Journal of the International Societies for Precision Engineering and Nanotechnology, Vol. 24 (2000) No.4, pp.329-337.
Introduction Nano-zirconia toughened aluminium ceramics (ZTA ceramics) is a kind of high performance structural ceramics.
Surface Damages of ZTA Ceramics under TUVAG.
Tokura and et al.: Journal of Materials Processing Technology, Vol. 132 (2003) No.1-3, pp.353-364
Miller and et al.: Journal of the International Societies for Precision Engineering and Nanotechnology, Vol. 24 (2000) No.4, pp.329-337.