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Online since: September 2020
Authors: Mohamad Zaky Noh, Julie Juliewatty Mohamed, Mohd Al Amin Muhamad Nor, Noor Asliza Ismail Adnen, Mohd Warikh Abdul Rashid
Journal of Sustainability Science and Management 2017 (Special Issue 3), pp. 104-110
[6] J.M., Salim, M.
International Conference on Environment Science and Engineering, (2011) 8, pp. 171-174
Ceramics International, (2008) 34, pp. 1867-1873
International Journal of Basic & Applied Sciences. (2009) 9(9), pp. 22-25
Journal of Materials Processing Technology. (2009) 209 (6), pp. 2812-2817.
International Conference on Environment Science and Engineering, (2011) 8, pp. 171-174
Ceramics International, (2008) 34, pp. 1867-1873
International Journal of Basic & Applied Sciences. (2009) 9(9), pp. 22-25
Journal of Materials Processing Technology. (2009) 209 (6), pp. 2812-2817.
Online since: October 2012
Authors: Yue Zang, Xiao Ming Xu, Zhi Guo Zhuo, Hai Zhou, Ruo Xi Xu, Huan Feng
Study on Improved Grinding Process of Sapphire with LED Substrate Material in Manufacturing Engineering
Hai Zhou 1,a, Xiaoming Xu 1,2,b, Zhiguo Zhuo 1,2,c, Yue Zang 1,3,d, Louxi Xu 1,e, Huan Feng 1,f
(1 Yancheng Institute of Technology, Yancheng, 224051, China) (2 Changzhou University, Changzhou , 213164 ,China) (3 Jiangsu University, Zhenjiang , 212013 ,China)
azhouhai@ycit.cn, b43293257@qq.com,c375194103@qq.com, dzangyueaifangtong@163.com, e54341242@qq.com, f641538135@qq.com
Keywords: Sapphire, Robber pad grinding, TTV, BOW
Abstract: Method for grinding by adding rubber pad between LED sapphire substrate and ceramic supporting is proposed though the ANSYS finite element analysis, which obtains high flatness of the surface of a substrate efficiently.
With the vacuum cups, the substrate can be absorbed to the rubber pad and the adsorption ceramic support.
Advances in Abrasive Technology, Proceedings of the International Symposium, 1997.7(8-10):96-100
International Journal of Machine Tools and Manufacture, 2005,45 (10) :1140-1151
International Journal of Machine Tools and Manufacture,2008,48: 1297-1307.
With the vacuum cups, the substrate can be absorbed to the rubber pad and the adsorption ceramic support.
Advances in Abrasive Technology, Proceedings of the International Symposium, 1997.7(8-10):96-100
International Journal of Machine Tools and Manufacture, 2005,45 (10) :1140-1151
International Journal of Machine Tools and Manufacture,2008,48: 1297-1307.
Online since: September 2011
Authors: Xiao Peng Kong, Zhi Gang Jiang, Fei Liu
Simulation on Ceramic Composite Armors against Multi-hit of APPs
Xiao Peng Kong1, a, Zhi Gang Jiang2, b and Fei Liu2, c
1College of Optoelectronic Science and Engineering, National University of Defense Technology, Changsha, Hunan, P.
Medvedovski: Ceramic International, Vol. 36 (2010), p.2117
Rosset: International Journal of Impact Engineering, Vol. 31 (2005), p.1223
Zeng: Journal of Ballistics, Vol. 23 (2011), No.1, p.58.
Bazant: Jounal of Engineering Mechnics: Vol. 113, No.10, p.1512
Medvedovski: Ceramic International, Vol. 36 (2010), p.2117
Rosset: International Journal of Impact Engineering, Vol. 31 (2005), p.1223
Zeng: Journal of Ballistics, Vol. 23 (2011), No.1, p.58.
Bazant: Jounal of Engineering Mechnics: Vol. 113, No.10, p.1512
Online since: August 2014
Authors: Jing Lin Tong, Chang Juan Zhang, Feng Jiao, Bo Zhao
Research on Removal Mechanism and Surface Features of Al2O3 Engineering Ceramics in Ultrasonic Lapping
Changjuan Zhang1,a, Jinglin Tong2, Bo Zhao3, Feng Jiao4
1, 2, 3, 4School of Mechanical and Power Engineering, Henan Polytechnic University,
Henan, 454000, China
azhangcj@hpu.edu.cn
Keywords: Al2O3 engineering ceramics, Ultrasonic lapping, Material removal rate, Surface features
Abstract.
The cylindrical specimen of hot pressing Al2O3 engineering ceramics is adopted, its dimension is.
Du: International Journal of Abrasive Technology, Vol. 2 (2009), pp. 345-357
Yang: China Mechanical Engineering, Vol. 17 (2006), pp. 995-998
Liang: China Mechanical Engineering, Vol. 16 (2005), pp. 664-666
The cylindrical specimen of hot pressing Al2O3 engineering ceramics is adopted, its dimension is.
Du: International Journal of Abrasive Technology, Vol. 2 (2009), pp. 345-357
Yang: China Mechanical Engineering, Vol. 17 (2006), pp. 995-998
Liang: China Mechanical Engineering, Vol. 16 (2005), pp. 664-666
Online since: April 2019
Authors: Aleksandrs Korjakins, Girts Bumanis, Jurijs Ozolins, Andrejs Shishkin, Kristine Irtiseva
Clay Ceramic Hollow Sphere – Cement Syntactic Foam Composite for Building Applications
Andrei Shiskin1,a*, Girts Bumanis2,b, Kristine Irtiseva1,c, Jurijs Ozolins1,d, Aleksandrs Korjakins2,e
1Riga Technical University, Faculty of Materials Science and Applied Chemistry, Rudolfs Cimdins Riga Biomaterials Innovations and Development Centre, Pulka 3, LV-1007, Riga, Latvia
2Riga Technical University, Institute of Materials and Structures, Department of Building Materials and Products, Kalku 1, LV-1658, Riga, Latvia
aandrejs.siskins@rtu.lv, bgirts.bumanis@rtu.lv, ckristine.irtiseva@rtu.lv, djurijs.ozolins@rtu.lv, ealeksandrs.korjakins@rtu.lv
Keywords: syntactic foam, clay, ceramic, hollow sphere, civil engineering.
Introduction The role of lightweight aggregate concrete (LAC) in civil engineering has been increasing continuously as demand for multi-role material with both superior strength and thermal properties are eagerly pursued.
In some cases, glass additive is used as a fluxing agent in production of ceramics to reduce sintering temperature and porosity of the ceramics [6].
Rozenstrauha, Pore structure of lightweight clay aggregate incorporate with non-metallic products coming from aluminium scrap recycling industry, Journal of the European Ceramic Society. 32 (1) (2012) 141-148
Ozolins, Illite clay ceramic hollow sphere - obtaining and properties, The 25th International Baltic Conference of Engineering Materials & Tribology. (2016) 37-37
Introduction The role of lightweight aggregate concrete (LAC) in civil engineering has been increasing continuously as demand for multi-role material with both superior strength and thermal properties are eagerly pursued.
In some cases, glass additive is used as a fluxing agent in production of ceramics to reduce sintering temperature and porosity of the ceramics [6].
Rozenstrauha, Pore structure of lightweight clay aggregate incorporate with non-metallic products coming from aluminium scrap recycling industry, Journal of the European Ceramic Society. 32 (1) (2012) 141-148
Ozolins, Illite clay ceramic hollow sphere - obtaining and properties, The 25th International Baltic Conference of Engineering Materials & Tribology. (2016) 37-37
Online since: December 2005
Authors: Charles Lewinsohn, Hidekazu Murakawa, Hisashi Serizawa, Mrityunjay Singh
Kohyama:
Ceramic Engineering and Science Proceedings, Vol. 20 [4] (1999), pp.443-450
Needleman: International Journal of Fracture, Vol. 42 (1990), pp.21-40
Wu: Ceramic Engineering and Science Proceedings, Vol. 20 [3] (1999), pp.309-316
Kohyama: Ceramic Engineering and Science Proceedings, Vol. 22 [4] (2001), pp.621-625
Murakawa: Ceramic Engineering and Science Proceedings, Vol. 22 [4] (2001), pp.635-642
Needleman: International Journal of Fracture, Vol. 42 (1990), pp.21-40
Wu: Ceramic Engineering and Science Proceedings, Vol. 20 [3] (1999), pp.309-316
Kohyama: Ceramic Engineering and Science Proceedings, Vol. 22 [4] (2001), pp.621-625
Murakawa: Ceramic Engineering and Science Proceedings, Vol. 22 [4] (2001), pp.635-642
Online since: January 2017
Authors: De Tian Wan, Yi Wang Bao, Chen Guang Wei, Rui Na Pan, Yan Ping Wang
Materials Science and Engineering A 2007; 268-274
[2] Y.W.
Ceramics International 2014; 5007-5013 [5] Huang Wu, Lawrence T.
Ceramics International 2015; 2706-2713 [11] G.
Journal of Alloys and Compounds 2015; 348-353 [12] J.
Journal of Alloys and Compounds 2009; 89-91
Ceramics International 2014; 5007-5013 [5] Huang Wu, Lawrence T.
Ceramics International 2015; 2706-2713 [11] G.
Journal of Alloys and Compounds 2015; 348-353 [12] J.
Journal of Alloys and Compounds 2009; 89-91
Online since: July 2020
Authors: Amir N. Saud, Mohsin A. Aswad, Mohammed A. Ahmed
Ceramics International, 27 (2004) 1-7
International Journal of Applied Ceramic Technology , 17 (2019) 1-17
In Proceedings of the 2017 IEEE 1st International Conference on Recent Trends of Engineering Science and Sustainability, Baghdad, Iraq. (2017)17-19
Ceramics International,41 (2015) 9443-9454
In: Taguchi’s Quality Engineering Handbook (2007)
International Journal of Applied Ceramic Technology , 17 (2019) 1-17
In Proceedings of the 2017 IEEE 1st International Conference on Recent Trends of Engineering Science and Sustainability, Baghdad, Iraq. (2017)17-19
Ceramics International,41 (2015) 9443-9454
In: Taguchi’s Quality Engineering Handbook (2007)
Online since: September 2013
Authors: Chang Sheng Hu, Xi Wang
Using Red Mud Manufacturing Building Glass-ceramics
Changsheng Hu, Xi Wang
School of Materials Science and Engineering,
Qilu University of Technology, Jinan, 250353, P.R.
In this paper, red mud of aluminum industrial residue has been studied to make the glass-ceramic, quartz sand, magnesite, fluorite and red mud was mixed to melt, molten glass was poured into the model in shape, then annealing, glass-ceramic was make, the color of glass-ceramic is brown or black, the crystals in glass-ceramic body is iron oxide by XRD, Strength, the expansion coefficient and morphology of the sample were measured.
The crystals in glass-ceramic body is iron oxide, surface color of glass-ceramic depends on the melting temperature of the batch.
[2] H.Z Yang, C P Chen,L J Pan, H X ;Lu, H W Sun,X Hu. .Journal of the European Ceramic Society,Vol.29(2009) NO.1,1887-1894
[3] J K Yang, D D Zhang, H, Jian, and B P He, B Xiao: Ceramics International, Vol.34 (2008), No.1, 125-130.
In this paper, red mud of aluminum industrial residue has been studied to make the glass-ceramic, quartz sand, magnesite, fluorite and red mud was mixed to melt, molten glass was poured into the model in shape, then annealing, glass-ceramic was make, the color of glass-ceramic is brown or black, the crystals in glass-ceramic body is iron oxide by XRD, Strength, the expansion coefficient and morphology of the sample were measured.
The crystals in glass-ceramic body is iron oxide, surface color of glass-ceramic depends on the melting temperature of the batch.
[2] H.Z Yang, C P Chen,L J Pan, H X ;Lu, H W Sun,X Hu. .Journal of the European Ceramic Society,Vol.29(2009) NO.1,1887-1894
[3] J K Yang, D D Zhang, H, Jian, and B P He, B Xiao: Ceramics International, Vol.34 (2008), No.1, 125-130.
Online since: May 2020
Authors: Elena P. Farafontova, Irina A. Pavlova, Maria Sapozhnikova
Astutiningsih, Preparation and characterization of phosphate-sludge kaolin mixture for ceramics bricks, International Journal of Technology. 9 (2018) 317
[16] Yan-bing ZONG Wen-hui CHEN Yi-xuan LIU et al, Influence of slag particle size on performance of ceramic bricks containing red clay and steel-making slag, Journal Ceramic Society Japan. 127 (2019) 105-110
Series: Materials Science and Engineering. 365 (2018) 032066
Standartov, Moscow (2013) (international standard) [27] A.
Standartov, Moscow (1995) (international standard)
[16] Yan-bing ZONG Wen-hui CHEN Yi-xuan LIU et al, Influence of slag particle size on performance of ceramic bricks containing red clay and steel-making slag, Journal Ceramic Society Japan. 127 (2019) 105-110
Series: Materials Science and Engineering. 365 (2018) 032066
Standartov, Moscow (2013) (international standard) [27] A.
Standartov, Moscow (1995) (international standard)