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Journal of Building Materials, Vol.4 (2001), p.79-83
International Journal of Fatigue, Vol.29 (2007), p.1292-1301
Journal of Materials Science, Vol.44 (2009), p.1600-1606
Ceramics International, Vol.35 (2009), p.2235-2240
Journal of Engineering Mechanics, (1999), p.290-299

Hashish, Model for Abrasive Waterjet (AWJ) Machining, Journal of Engineering Materials Technology – Transactions of the ASME 111/2 (1989) 154162
Straka, Optimization of automated quality control of manufacturing processes in engineering applications in the electrical discharge machining technology, Dissertation.
Gajdoš, Accompanying phenomena in the cutting zone macinability machinability during turning of stainless steels, International Journal Machining and Machinability of Materials 5/4 (2009) 383-400
Rimár, Monitoring of Vibrations in the technology of AWJ, Key Engineering Materials 496 (2012) 229-234
Staněk, Measurement of Specific Fracture Energy and Surface Tension of Brittle Materials in Powder Form, International Journal of Fracture 159/1 (2009) 103-110

Gurskikh: Powder Metallurgy and Metal Ceramics, Vol. 48 (2009), pp. 11–17
Mynors: International Journal of Machine Tools and Manufacture, Vol. 49 (2009), pp. 916-923
Kara: Engineering Structures, Vol. 29 (2007), pp. 2262-2273
Sun: Journal of Ningbo University (Natural Science and Engineering Edition).
Ludovico: Journal of Materials Processing Technology, Vol. 197 (2008), pp. 301–305

Rosso d 1 Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul.
Konarskiego 18a, 44-100 Gliwice, Poland 2 Department of Materials Science and Chemical Engineering, Politecnico di Torino -Alessandria Campus, Viale T.Michel 5, 15100 Alessandria, Italy a leszek.dobrzanski@polsl.pl, bzbigniew.brytan@polsl.pl, cmarco.actis@polito.it, d mario.rosso@polito.it Keywords: powder metallurgy, stainless steels, vacuum sintering.
Rosso, Proceedings of 12th International Scientific ConferenceAMME'03, pp.211-214, Gliwice-Zakopane, Poland 2003
Pallavicini, Journal of Materials Processing Technology, Vol. 157-158, pp. 312-316, 2004
Torralba, Journal of the European Ceramic Society Vol. 23, pp. 2813-2819, 2003.

The material of the balls was HIP-Si3N4 (Toshiba, TSN-03) commonly used in ceramic bearings.
Oral, Microelectronic Engineering, 73-74, pp.524-528 (2004)
Tanabe, Fatigue & Fracture of Engineering Materials & Structures, Blackwell, 32,3, pp.180-188 (2009). doi:10.1111/j.1460-2695.2008.01307.x
Tanabe, Proc. of SPIE-The International Society for Optical,7522,SPIE 7522-313 (2010)
Santos, Procedia Engineering, 10, pp. 881-886 ( 2011). doi:10.1016/j.proeng.2011.04.145 [27] K.

High Temperature - FTIR Characterization of Gadolinia Doped Ceria Aliye Arabacı1,a, Nuri Solak2,b 1Istanbul University, Engineering Faculty, Department of Metallurgical and Materials Engineering, 34320, Avcilar, Istanbul, Turkiye 2Istanbul Technical University, Department of Metallurgical and Materials Engineering, 34469, Istanbul, Turkiye aaliye@istanbul.edu.tr, bsolaknu@itu.edu.tr Keywords: Solid oxide fuel cell, TG/DTA-MS, X-ray diffraction, High temperature-FTIR Abstract Doped ceria-based (DC) materials have recently been considered as the most promising solid electrolytes for intermediate temperature solid oxide fuel cell (IT-SOFC) applications.
Baker: Journal of hydrogen energy, Vol. 33 (2008), p.3480 [3] J.G.
Bergman: Ceramic International, Vol. 34 (2008), p.1949 [5] C.
Li : Journal of Power Sources, Vol.88 (2009), p. 156 [6] S.
Sharma: Journal of Alloys and Compounds, Vol.391 (2005), p. 129 [11] R.

Mahmud, Fabrication of nanogap electrodes via nano-oxidation mask by scanning probe microscopy nanolithography, Journal of Micro/Nanolithography, MEMS, and MOEMS, 10 (2011) 043002-043003
Chang, Design of experiment (DOE) method considering interaction effect of process parameters for optimization of copper chemical mechanical polishing (CMP) process, Microelectronic Engineering, 83 (2006) 506-512
Abdullah, Hydrothermal growth of flower-like ZnO nanostructures on porous silicon substrate, Journal of Molecular Structure, (2014)
Abdullah, Annealing heat treatment of ZnO nanoparticles grown on porous Si substrate using spin-coating method, Advances in Materials Science and Engineering, 2014 (2014) 6
Rusop, Optical properties of well-aligned ZnO nanostructure arrays synthesized by an electric field-assisted aqueous solution method, Ceramics International, 40 (2014) 11193–11198

Because of their excellent strength-to-weight ratio, they are chosen successfully for many applications where metals and ceramics have traditionally been used [l].Other advantageous properties comprise low material and manufacturing costs, ease of recycling, and ease of fabrication of complex parts.
Description of neural networks Neural networks (NN) are being successfully applied in engineering.
[7] Van de Ven JD, Erdman AG: Laser transmission welding of thermoplastic - part I: temperature and pressure modeling, journal Manuf.
El-Tayeb , V.C.Vengkatesh: Modeling, Testing and Experimental Validation of Laser Machining Micro Quality Response by Artificial Neural Network, International Journal of Mechanical & Mechatronics Engineering, Vol: 9 No: 9,(2009),p:161-166
[14] Bappa Acherjee , DiptenMisra , DipankarBose , I.C.Venkadeshwaran: Prediction of weld strength and seam width for laser transmission welding of thermoplastic using response surface methodology, journal of Optics & Laser Technology ,Vol .41, (2009), p: 956-967.

Research on Wire-electro Discharge Machining of SiC Particle Reinforced Cu matrix Composite Jiangang Li1,a, Jin Wang2,b 1Mechanical Engineering Training Center, Shaanxi University of Technology, Hanzhong, China 2Mechanical Engineering institute, Shaanxi University of Technology, Hanzhong, China alijg0007@sina.com,bfenmo163@163.com Keywords: wire-electro discharge machining; SiC particle reinforced Cu matrix composite; cutting speed; surface roughness Abstract: The law of peak current, pulse width and working voltage parameter etc which influencing on wire-electro discharge machining (WEDM) cutting speed and surface roughness of the SiC particle reinforced Cu matrix composite in the WEDM machining were studied; the machined surface of Cu matrix composite was analyzed by means of scanning electron microscope (SEM); SiC Particle reinforced Cu matrix composite microstructure was analyzed by means of metallographic microscope.
Because this material is implanted the ceramic particles, it make compound material to be more wear resistance than matrix alloy, but material process-ability is decrease.
Looney: Journal of Materials Processing Technology Vol. 33 (1992), p. 463-468 [2] N.P.Hung,F.Y.C.Boey: Journal of Materials Processing Technology Vol. 48 (1995), p. 291-297 [3] N.P.Hung, L.J.Yang:Journal of Materials Processing Technology Vol. 44 (1994), p. 229-236 [4] Rajurkar K P, Wang W M , Zhao W S: Annals of the CIRP Vol. 46 (1997), p. 147-150 [5] Klocke F, Kamenzky S, Dieckmann J, et al:Proceedings of the 16th International Symposium on Electromachining.Shanghai (2010), p.279-284, in press.

Brane, Melt volume flow measurement in the mineral-wool production process, Strojniski Vestnik, Journal of Mechanical Engineering, 57(4) (2011) 293-303
Refractories and Industrial Ceramics, 56(5) (2016) 465-469
Chemical Engineering Science. 57(2) (2002) 215-226
International Journal of Metalcasting. 8(3) (2014) 13-22
The Canadian Journal of Metallurgy and Materials Science. 45(4) (2013) 395-408