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The Wear Behavior of Pulse Current Electroforming Ni-P-SiC Composite Coatings Kung-Hsu Hou1, a, Ming-Chang Jeng2, b, Yung-Kang Shen 3, c and Ming-Der Ger 4, d 1 Department of Power Vehicle and Systems Engineering, Chung Cheng Institute of Technology, National Defense University, Tahsi, Taiwan, ROC 2 Department of Mechanical Engineering, National Central University, Chung-Li, Taiwan, ROC 3 Department of Mechanical Engineering, Lunghwa University of Science and Technology, Taoyuan, Taiwan, ROC 4 Department of Applied Chemistry, Chung Cheng Institute of Technology, National Defense University, Tahsi, Taiwan, ROC a khou@ccit.edu.tw, b jeng@cc.ncu.edu.tw, c ykshen@mail.me.lhu.edu.tw, d mdger@ccit.edu.tw Keywords: Composite plating, Ni-P-SiC, Wear resistance Abstract.
Sha: Surface Engineering Vol. 18 (2002), p. 329 [2] X.
Ou: Japanese Journal of Applied Physics, 44 (2005), p. 1089 [4]Robert L.
Searson: Journal of the Electrochemical Society Vol. 149(2002), p.
Ma: Proceedings of SPIE - the International Society for Optical Engineering Vol. 3512(1998), p. 344 [9]A.F.

Prof. at VNR VJIET, Hyderabad, India 3Systems Engineer at TCS, Hyderabad, India achnaveenreddy316@gmail.com, bbhargav.middemedi@gmail.com, cnaveencatalist@gmail.com Keywords: FGM plates, HSDT, electro-mechanical loading, navier’s method, piezoelectric material Abstract.
Introduction As of late, another different tytpe of materials which as functionally graded materials (FGMs) have impressive consideration in the engineering applications.
Where zero value of n indicates that the plate is full ceramic and n value is infinite indicates that the plate is full metal.
International Journal of Solids and Structures 43, no. 18-19 (2006): 5468-5484
International Journal for numerical methods in engineering 47, no. 1‐3 (2000): 663-684.

Investigating the potential of TiB2–based composites with Ti and Fe additives as wettable cathode Hamed Heidari1,a, Houshang Alamdari1,b, Dominique Dubé1,c and Robert Schulz2,d 1 Department of Mining, Metallurgical and Materials Engineering, Université Laval, Québec (QC), Canada G1V 0A6 2 Hydro-Quebec Research Institute, 1800 Boul.
Introduction TiB2-based ceramics have been studied since 1950’s as alternatives for carbon cathodes [1].
Aluminum recycling and processing for energy conservation and sustainability, ASM International, Materials park, OH, 2007, pp. 157-222
Grande, Degradation of TiB2 ceramics in liquid aluminum, Journal of the European Ceramic Society, 28 (2008) 3155-3164
Fett, Physical properties, in: Ceramics: Mechanical properties, failure behaviour, materials selection, Springer-Verlag, Berlin, 1999, pp. 9-18.

Zahurin, "New natural fibre reinforced aluminium composite for automotive brake pad," International Journal of Mechanical and Materials Engineering, 7 (2) (2012) 166-170
Kuciej, "Temperature and thermal stresses in a pad/disc during braking," Applied Thermal Engineering, 30, (2010) 354-359
Desmet, "Measurements of brake disc surface temperature and emissivity by two-color pyrometry," Applied Thermal Engineering, 30 (2010) 753-759
Degallaix, "Thermal analysis of periodic sliding contact on a braking tribometer," Applied Thermal Engineering, 28 (2008) 2194-2202
Bouchetara, "Thermomechanical modelling of dry contacts in automotive disc brake," International journal of thermal sciences, 60 (2012) 161-170

Bioactive calcium silicate coating of titania nanotubes for controlled drug release Ping Li1,a, Zhang Wang2,b, Fei Luo2,c and Xiu-feng Xiao2,d * 1College of Materials Science and Engineering, Fujian Key Laboratory of Polymer Materials, Fujian Normal University, Fuzhou 350007, P.
China 2College of Chemistry and Chemical Engineering, Fujian Key Laboratory of Polymer Materials, Fujian Normal University, Fuzhou 350007, P.
Losic: Journal of Biomaterials and Nanobiotechnology Vol. 2(2011), p. 477
Lai: Journal of Materials Chemistry Vol. 21(2011), p.12793
Zugasti-Cruz: Ceramics International Vol. 38(2012), p. 6849

Dargusch2,d 1School of Metallurgy & Resources, Anhui University of Technology, Maanshan, 243002, China 2CAST CRC, School of Mechanical & Mining Engineering, The University of Queensland, Brisbane, 4072 Australia awhich@ahut.edu.cn, byejinlijie@163.com, cgui.wang@uq.edu.au, dm.dargusch@uq.edu.au Keywords: Pulsed current, steel, grain refinement.
Dabo: Journal of Crystal Growth Vol. 216 (2000), p.495 [2] L.N.
McFadden: Journal of Crystal Growth Vol. 102 (1990), p. 725 [3] V.
Flemings: ISIJ International, Vol. 30 (1990), p. 27 [5] X.
Zhai: Journal of Iron and Steel Research International, Vol. 11 (2004), p.37

The filling ratio of the grinding chamber with ceramic balls (~ 1 mm) amounted to 60 % by volume.
Zivanovic, Mechanical activation of various cements, International Journal of Mineral Processing, 74 (2004) S355-S363
Niinimäki, Ultrafine grinding of limestone with sodium polyacrylates as additives in ordinary portland cement mortar, Chemical Engineering and Technology, 37 (2014) 787-794
Mütze, Energy dissipation in particle bed comminution, International Journal of Mineral Processing, 136 (2015) 15-19
Cement International 6 (2008), 2-12

Williams, et al, Review of RSW of steel plates Part 2 Factors influencing electrode life, International Materials Reviews. 49(2) (2004)77-108
Guo, et al, Study of rare earth elements on the physical and mechanical properties of a Cu–Fe–P–Cr alloy, Materials Science & Engineering B. 147 (1)(2007) 1-6
Li, et al, Effects of cone angle of truncated electrode on heat and mass transfer in RSW, International Journal of Heat and Mass Transfer. 65 (2013)
Krishna, et al, Enhanced Strength in Cu-Ag-Zr Alloy by Combination of Cold Working and Aging, Journal of Materials Engineering and Performance. 23(4) (2014) 1458-1464
Shen, et al, An investigation on morphology and microstructure of Cu–Cr-Al2/O3 powders prepared by mechanical milling, Proceedings of 2017 5th International Conference on Mechatronics, Materials, Chemistry and Computer Engineering. 5(2017)

Liu: Materials Science and Engineering A Vol. 523 (2009), p. 193 [7] H.
Faraone: Materials Science and Engineering A Vol. 435-436 (2006), p. 453 [8] H.
Jahanmir: Journal of American Ceramic Society Vol. 77 (1994), p. 1388 [14] G.
Bandyo: Journal of American Ceramic Society Vol. 88 (2005), p. 918 [15] B.D.
Warren: Journal of Mater.

Electromagnetic Wave Shielding Properties of ITO/PET Thin Film by Film Thickness Do-Hyoung Kim 1,a, Han-Ki Yoon2,b, Do-Hoon Shin3 and Ri-ichi Murakami3 1 Department of Mechanical Engineering, Graduate School of Dong-Eui University, Busan, Republic of Korea 2 Department of Mechanical Engineering, Dong-Eui University, Busan, Republic of Korea 3 Department of Mechanical Engineering, University of Tokushima, Japan a First author: deu_kdh@yahoo.co.kr, bCorresponding author: hkyoon@deu.ac.kr Keywords: Indium tin oxide, Electromagnetic wave shielding properties, Resistivity, Transmittance.
ITO thin films were deposited on PET substrates(50×150 mm2) by inclination opposite target type DC magnetron sputtering equipment using an oxide ceramic ITO target(In2O3(90wt%) + SnO2(10wt.%)) as shown in Fig. 1.
Han: Journal of the KSME Vol. 42 (2002), No. 11, p. 48 [5] S.
Sputtering Using High Density Ceramic Targets Vol. 445 (2003), p. 229 [9] H.
Lii: Ceramics International Vol. 27 (2001), Issue 3, p. 363