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Ceramics International Vol. 33 (2007), p.95-99 [3] J.
Ceramics International, Vol. 34 (2008), p.769-772 [10] Z.
Materials Science and Engineering B.
Journal of the European Ceramic Society.
Materials Science and Engineering, Vol.

Sorrell c, a Faculty of Materials and Manufacturing Technology, MUT University of Technology, Tehran 4817-75631, Iran; b Institute for Biomedical Engineering and Technology, AMME J07, University of Sydney, NSW Australia; c School of Materials Science and Engineering, University of NSW, Australia.
A 1.5 kW, 2.45 GHz variable-power microwave furnace (Ceramic Engineering, Sydney, Australia), with proportional power control (amplitude variation) and built-in mode stirrer, was used at the 65% power level for all experiments.
Ramachandra Rao, T.S Kannan, Synthesis and sintering of hydroxyapatite-zirconia composites, Materials Science and Engineering C (2002), 20 (1-2), 187-193
Agathopoulos, F.N Oktar, Composites of bovine hydroxyapatite (BHA) and ZnO, Journal of Material Science, (2008), 43 (8), 2536-40,
Brandwood, Interfacial Analysis of Hydroxyapatite-Particulate Addition Composites, pp. 623-28 in Ceramics: Adding the Value, Vol. 2 (proceedings of the International Ceramic Conference, Austceram 92).

International Journal of Engineering Science, 2011; 49: 85-104
Engineering Fracture Mechanics. 1981;15(1-2):185-192
Engineering Fracture Mechanics. 1999; 63(5):541-556
Engineering Fracture Mechanics. 1999;63(5):523-540
Engineering Fracture Mechanics. 1999;63(5):503-522

Industrial experiments filtration of steel Krystian Janiszewski1,a, Bożena Gajdzik1,b, Karel Gryc2,a, Ladislav Socha2,b, Agnieszka Bogdał3 1 Silesian University of Technology, Institute of Technology Metals Krasińskiego 8, 40-019 Katowice, Poland 2 VŠB Technická Univerzita Ostrava, 17. listopadu 15, Ostrava-Poruba, Republika Czeska 3 Czestochowa University of Technology, Faculty of Production Engineering and Materials Technology 1,a janiszewski.krystian@polsl.pl, 1,b bozena.gajdzik@polsl.pl, 2,a karel.gryc@vsb.cz, 2,b ladislav.socha@vsb.cz, 3 bogdal@wip.pcz.pl Keywords: steel, ceramic filter, solid non-metallic inclusions, continuous casting.
Fig. 1 presents the trough-type tundish prepared, in which a ceramic filter has been mounted.
Merder, Numerical analysis of the non-metallic, inclusions distribution and separation in a two-strand tundish, Metalurgija – Journal for Theory and Practice in Metellurgy 52 (2) (2013) 153-156
Janiszewski, The slenderness ratio of the filter used in the process of liquid steel filtration as the additional parameter of the filter form, Steel Research International 84 (3) (2013) 288-296
Janiszewski, Refining of liquid steel multi-hole ceramic filters in protective atmosphere, Instytutu Metalurgii Żelaza 61 (5) (2009) 78-82

Application Of Flame Image Recognition-Based Information Fusion Technology To Roller Kiln Temperature Detection Yonghong Zhu1, a, Yanfang Liu1,b 1 Dept. of Mechanical & Electronic Engineering, Jingdezhen Ceramic Institute, Jingdezhen, China azyh_patrick@163.com , bYanfangliu@163.com Keywords: Ceramic roller kiln; Flame image processing; Information fusion; Thermocouple sensor Abstract.
In subsequent decades roller kiln was widely applied in ceramic industry.
Journal of Chemical Engineering, Vol. 59(2008), p.1839-1842 (In Chinese) [3] J.
Baskent and B Barshen: The International Journal of Robotics Research Vol. 18(1999), p. 788-808 [5] Y.
IEEE International Conference on Image Processing (ICIP’98), Chicago, Illinois,USA,1998, p. 536-540

Mechanical Properties of Hot Extruded Al (Mg)-MnO2 Composites Ghanaraja.S1,a*, Dileep kumar.D.J2,b, Ravikumar.K.S3,c and Madhusudan.B.M4,d 1Professor, P.E.S college of Engineering, Mandya-571401, Karnataka, India. 2Assistant Professor,RGIT, Bangalore-560032, Karnataka, India. 3Assistant Professor, MIT, Mysore-571438, Karnataka, India. 4Assistant Professor, GSSSIETW, Mysore-570016, Karnataka, India.
The major problem in this technology is to obtain sufficient wetting of dispersoid by the liquid metal and to get a homogeneous dispersion of the ceramic particles.
Syed bava bakrudeen, Hari Prasada Rao Pydi, “Contemplation of Mechanical and Thermal Properties of Aluminum-1100 with Silicon Carbide”.International Journal of Engineering and Advanced Technology (IJEAT) ISSN: 2249 – 8958, vol. 2, (2012)
[8] Han Jian-min, Wu Zhao-ling, Cui Shi-haia, Li Wei-Jing, DuYong-ping, “Investigation of defects in SiCp/A356 composites made by a stir casting method” Journal of Ceramic Processing Research. vol. 8, p. 74-77, (2006)
[10] Jayaseelan, V., Kalaichelvan, K., Kannan, M., Vijay Ananth, S., “Extrusion Characterizes of Al/Sic by different Manufacturing Process” international journal of applied engineering research, dindigul vol. 1, (2006).

Ethanol liquid at a low rate flows from the bottom of the ceramic tube, and produces a stable diffusion flame after ignited near the ceramic nozzle.
Vlachos, Chemical Engineering Science. 58 (2003) 4871- 4882
[7] Zeliang Yang, Wei Li Yunhua Gan, Journal of Thermal Science and Technology. 9 (2010) 244-248(In Chinese)
Chung, Twenty-Sixth Symposium (International) on Combustion. 26 (1996), 121-128
Datta, International Journal of Thermal Sciences. 44 (2005) 429-440.

Elementary research on preparation of AlB12 powder by self-propagating high-temperature synthesis (SHS) WANG Chaoa, MA Baolingb, ZHANG Lu c, CAO Xiaozhou d, YANG He e, XUE Xiangxinf School of Materials and Metallurgy, Northeastern University, Institute of Metallurgical Resources and Environmental Engineering, NEU, Key Laboratory of Recycling Science for Metallurgical Resource, Liaoning Province, Liaoning Key Lab for Ecologically Comprehensive Utilization of Boron Resource and Materials, Engineering and Technology Research Center for Boron Resource Comprehensive Development and Application of Liaoning Province, Shenyang ,Liaoning, 110004, China wcwangchao83@gmail.com, b843005129@qq.com, c843638524@qq.com, dcaoxz@smm.neu.edu.cn, eyangh@smm.neu.edu.cn, fxuexx@mail.neu.edu.cn Keywords: AlB12, SHS, Microstructure, Adiabatic temperature, Component Abstract.
Watanabe, High-Toughness B4C-AlB12 Composites Prepared by Al Infiltration, Journal of the European Ceramic Society. 17 (1997) 879-884
Xue, Preparation and Characterization of AlB12 Powder, Journal of the Chinese ceramic society. 36 (2008) 1443-1449
Criado, Preparation of aluminium boride by powder technology, Ceramics International. 30 (2004) 301-306
Maglia, Preparation of nano-size ZrB2 powder by self-propagating high-temperature synthesis, Journal of the European Ceramic Society. 29 (2009) 1501-1506

Victor: Precision Engineering, Vol. 10 (1988) No. 2, pp. 59-65
Ferreira: International Journal of Machine & Manufacture,Vol. 38 (1998), pp. 1399-1418
Rentsch: Precision Engineering, Vol. 30 (2006), pp. 362-372
Wang: China Mechanical Engineering, Vol. 14 (2003) No. 4, pp. 289-292.
Zhao: Diamond &Abrasives Engineering, Vol. 6 (2004), pp. 54-57.

Mechanical Properties of Dental Porcelain Discs by Different Producing Methods Haitao Wang1, Yihong Liu1a, Yong Wang1, Huijuan Chen2, Yan Qiu3, Yiwang Bao3 1 Peking University School and Hospital of Stomatology, National Engineering Laboratory for Digital and Material Technology of Stomatology, Beijing 100081, PR China 2 Beijing University of Chinese Medicine Dongfang Hospital, Beijing 100011, PR China 3 State Key Lab of Green Building Materials, China Building Materials Academy, Beijing 110024, PR China a kqliuyh@163.com (corresponding author) Keywords: Porcelain; Mechanical property Abstract.
Introduction Dental porcelain is widely used in clinic for all-ceramic crowns or metal-ceramic restorations.
Wang, Clinical evaluation of 546 tetracycline-stained teeth treated with porcelain laminate veneers, Journal of Dentistry, 33(2005), 3-8
Journal of Dentistry, 30(2002), 161-169
Ceramics International, (2012)38, 5585–5596