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FOREWORD The eighth conference of the European Ceramic Society (8th ECerS) took place between June 29 - July 3, 2003 at the lstanbul Convention and Exhibition Centre, Istanbul, Turkey.
The page limit was imposed to encourage the authors to present longer and more detailed version of their work in reputable learned journals in the field, especially the journal of the European Ceramic Society, with which ECerS is closely associated.
As usual, Engineering Ceramics and Composites, Electrocerarnics, Science and Technology of Ceramic Powders and Shaping, Sintering and Machining of Advanced Materials were the most popular sessions. ln contrast to previous ECerS conferences, Traditional Ceramics session was also received high attention with 115 contributions.
Our thanks go to the International Ceramic Federation for their special interest in this meeting, and to the local European National Ceramic Societies for their support and assistance during the preparations for the meeting and their assistance in publicising it as widely as possible.
Thanks also go to the staff of Department of Materials Science and Engineering of Anadolu University, especially to A.

Suri, Pressureless sintering of boron carbide, Ceramics International 32, 227–233(2006)
Yamauchi, et al, Mechanical and electrical properties of B 4 C–CrB 2 ceramics fabricated by liquid phase sintering, Ceramic International, 29, 299–304(2003)
[7] H.R.Baharvandi and A.M.Hadian, Pressureless Sintering of TiB2-B4C Ceramic Matrix Composite, Journal of Materials Engineering and Performance, 17, 838–841(2008)
Dariel, A novel approach for the preparation of B4C-based cermets, International Journal of Refractory Metals & Hard Materials 18, 131–135(2000)
Sglavo, et al, Effect of Al addition on pressureless sintering of B 4 C, Ceramics International 35, 831–837 (2009)

Acknowledgement This work was financially supported by the Universiti Malaysia Perlis short term grant (9001-00343), School of Materials Engineering Universiti Malaysia Perlis, Sustainable Engineering Research Cluster UniMAP and Ministry of Higher Education Malaysia.
Ceramics International, Volume 39, Issue 3, April 2013, Pages 2197-2206
Ceramics International 37 (2011) 2181–2184
Chemical Engineering Journal, Volume 165, Issue 3, 15 December 2010, Pages 827-834, ISSN 1385-8947
Ceramics International 39 (2013) 5485–5493.

Technology of SMD MOX Gas Sensors Rapid Prototyping Nikolay Samotaeva*, Konstantin Oblovb, Denis Veselovc, Boris Podlepetskyd, Maya Etrekovae, Nikolay Volkovf and Nazar Zibilyukg National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Russian Federation, 115409 Moscow, Kashirskoe highway 31 annsamotaev@mephi.ru, bkyoblov@mephi.ru, cdsveselov@mephi.ru, dbipodlepetskij@mephi.ru, emoetrekova@mephi.ru, fnvvolkov@mephi.ru, gnazarzibilyuk@gmail.com Keywords: gas sensor, ceramics, microheater, laser technology, surface-mounted device Abstract.
Available online: http://www.figarosensor.com/products/entry/tgs8100.html (accessed on 30 April 2019) [6] Ohnishi H, Ultra Low Power Thin Film MEMS Gas Sensor for Battery operated Gas Alarm, 2018 Proceedings of 17th International Meeting on Chemical Sensors - IMCS 2018 95-96 [7] Kyocera ceramic hybrid packages.
Available online: https://www.sgxsensortech.com/content/uploads/2014/07/DS-0165-MP-7217-Datasheet-V5.pdf (accessed on 30 April 2019) [22] Vasiliev A V, Pisliakov A V, Sokolov A V, Samotaev N N, Soloviev S A, Oblov K, Guarnieri V, Lorenzelli L, Brunelli J, Maglione A, Lipilin A S, Mozalev A and Legin A V, Non-silicon MEMS platforms for gas sensors, 2016 Sensors and Actuators, B: Chemical 224 700-713 [23] Vasiliev A A, Lipilin A S, Mozalev A M, Lagutin A S, Pisliakov A V, Zaretskiy N P, Samotaev N N, Sokolov A V, Gas sensors based on MEMS structures made of ceramic ZrO2/Y 2O3 material, 2011 Proceedings of SPIE - The International Society for Optical Engineering, 8066, article 80660N [24] Vasiliev A A, Pavelko R G, Gogish-Klushin S Yu, Kharitonov D Yu, Gogish-Klushina O S, Sokolov A V, Samotaev N N, Alumina MEMS platform for impulse semiconductor and IR optic gas sensors, 2007, Proceedings of TRANSDUCERS and EUROSENSORS '07 - 4th International Conference on Solid-State Sensors, Actuators
and Microsystems, article 4300563 2035-2037 [25] Vasiliev A A, Sokolov A V, Legin A V, Samotaev N N, Oblov K Yu, Kim V P, Tkachev, S V, Gubin S P, Potapov G N, Kokhtina Yu V, Nisan A V, Additive technologies for ceramic MEMS sensors, 2015, Procedia Engineering, 120 1087-1090
[26] Samotaev N N, Miniaturized ceramic platform for metal oxide gas sensors array, 2016, IOP Conference Series: Materials Science and Engineering, 151 (1), article 012020 [27] Biro F, Ducso C, Hajnal Z, Pap A E, Barsony I, Optimisation of low dissipation micro-hotplates - Thermo-mechanical design and characterisation, 2013, Proceedings of THERMINIC 2013 - 19th International Workshop on Thermal Investigations of ICs and Systems, 116-121 [28] Samotaev N N, Vasiliev A A, Podlepetsky B I, Sokolov A V and Pisliakov A V, The mechanism of the formation of selective response of semiconductor gas sensor in mixture of CH4/H2/CO with air, 2007 Sensors and Actuators, B: Chemical 127 (1) 242-247

Introduction Ceramic industry gets recently forefront of interest and finds great use in engineering production as well as in many other areas.
Materials of the Silicon carbide can be used in all areas of engineering production.
Though it has significant participation not only in these technologies, but also in branch of consumable industries and power engineering.
ISBN: 978-145031060-4gneto-optical media and plastic substrate interfaces (Translation Journals style),” IEEE Transl.
“The effect of degassing pressure casting molds on the quality of pressure casting” Advanced Materials ResearchmVolume 428, 2012, Pages 43-46,2011 International Symposium on Materials Science and Engineering Technology, ISMSET 2011; Dubai; United Arab Emirates; 12 November 2011 through 13 November 2011, ISSN: 1022-6680 [10] Ragan, E., Dobránsky, J., Baron, P., Kočiško, M., Svetlík, J.: Dynamic of taking out molding parts at injection molding, Metalurgija, Volume 51, Issue 4, 2012, Pages 567-570, ISSN 0543-5846

Nallusamy, Experimental analysis on sliding wear behaviour of aluminium-6063 with SiC particulate composites, International Journal of Engineering Research in Africa, 31, (2017), 36-43
Nallusamy, Analysis of MRR and TWR on OHNS die steel with different electrodes using electrical discharge machining, International Journal of Engineering Research in Africa, 22, (2016), 112-120
Nallusamy, Analysis of welding properties in FSW aluminium 6351 alloy plates added with silicon carbide particles, International Journal of Engineering Research in Africa, 21, (2015), 110-117
Manikanda Prabu, Investigation on carbon nanotubes over review on other heat transfer nano fluids, International Journal of Applied Engineering Research, 10(62), (2015), 112- 117
Saravanan, Modeling and analysis of crank shaft with metal matrix composites, International Journal of Applied Engineering Research, 10(62), (2015), 133- 137

The Experiment of Thickness relationship on Ceramic Fiberboard and Silicon Carbide to Temperature Rise in Microwave Oven for Sintering Hydroxyapatite Agung Shamsuddin Saragih1,a, Alfi Eko Putra2,b and Radon Dhelika2,c* 1Research Center for Biomedical Engineering, Universitas Indonesia, Indonesia 2Department of Mechanical Engineering, Faculty of Engineering, Universitas Indonesia, Indonesia aashamsuddin@eng.ui.ac.id, balfi.eko@ui.ac.id, cradon@eng.ui.ac.id Keywords: Hydroxyapatite; Insulator; Microwave oven; Sintering; Susceptor Abstract.
Materials Science and Engineering: C, 2016. 67: p. 104-114
Journal of materials research, 1994. 9(1): p. 180-187
Journal of alloys and compounds, 2010. 494(1-2): p. 175-189
International Journal of Applied Ceramic Technology, 2012. 9(1): p. 124-132.

Microstructure and Properties of Al2O3-ZrO2 Ceramics Prepared by Microwave Sintering Yunlong Ai a, Xianghua Xie b, Wen He c, Bingliang Liang d, Weihua Chen e School of Material Science and Engineering, Nanchang Hangkong University, Nanchang, Jiangxi Province, 330063, China aayunlong@126.com, bxiexianghuahua@163.com, cwshw82@163. com, dlang02@sina. com, ecweihua@126.com Keywords: Microwave sintering, Al2O3, ZrO2, Microstructure, Fracture toughness Abstract.
Lawson, Environmental degradation of zirconia ceramics, Journal of the American Ceramic Society 15 (1995) 485–502
Journal Material Society 36 (2001) 4707-4710
Ceramics International 29 (2003) 151-158
Journal of the American Ceramic Society 80 (1997) 394-400

Introduction The development of powder processed nickel-based superalloys for use in gas turbine engines was one of the major-materials engineering breakthroughs of the early seventies [1].
Bedir: Materials Science and Engineering, Vol.
Zhang: Journal of Iron and Steel Research, International, Vol. 13 (2006) No.5, pp.65-68
Thomas: Materials Science and Engineering, Vol. 402 (2005) No. 1, pp.325-334
Kang: Tool Engineering, Vol. 39 (2005) No.6, pp.14-17.

Two-step sintering of fine Barium Cerate-Zirconate ceramics electrolyte Salmie Suhana Che Abdullah1, a, Rohaya Abdullah2,b and Nafisah Osman3,c 1,2School of Materials Engineering, Universiti Malaysia Perlis (UniMAP), Kompleks Pusat Pengajian Jejawi 2, 02600 Arau, Perlis, Malaysia. 3Faculty of Applied Sciences, Universiti Teknologi MARA, 02600 Arau, Perlis, Malaysia.
Sadrnezhaad, Ceramics International, Vol. 35 (2009), p. 13-20
Buchi Suresh, Dibyendu Chakravarty, Dibakar Gas, Roy Johnson, International Journal of Hydrogen Energy, Vol. 37 (2012), p. 511-517
Sadrnezhaad, Journal of the European Ceramic Society, Vol.29 (2009), p.1371-1377
Zhou, Wei Guo, L.T.Li, Journal of American Ceramic Society, Vol 89 (2006), p. 438-443