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Cheeseman: Minerals Engineering, Vol. 21(2008), p. 252 [7] G.
Zhao: Chemical Engineering Journal, Vol. 171(2011), p.1132 [21] Q.
Petrovic: Chemical Engineering Journal, Vol. 166(2011), p. 198 [27] E.
Qin: Chemical Engineering Journal, Vol. 174(2011), p. 436 [30] A.
Koshiyama: Ceramics International, Vol. 38(2012), p. 4677 [33] M.

Experimental Study on Wear Resistance of Engine Cylinder Based on Surface Hardening Technology Jianmin Sun1, a, Yi Zhang2,b 1 School of Mechanical-electronic and Automobile Engineering, Beijing University of Civil Engineering and Architecture, Beijing, China 2 Automotive Engineering Department, Heilongjiang Institute of Technology, Harbin, China a jianminsun@tom.com, b hljzhangyi@163.com Keywords: Surface Hardening Technology; Cylinder; Wear Resistance; Composite Iron Plating Abstract.
References [1] Wang Yu, Ma Wenyan: Automobile Technology. no. 8 (2000), p. 24 [2] Zhong Minlin, Liu Wenjin, Zhang Hongjun: Wear. vol. 260, no. 11-12 (2006), p. 1349 [3] Xu Fangda, Zhang Yongkang: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 18 [4] Chen Fengbin, Bi Rui: Journal of Jiangsu University of Technology Science and Technology (Science and Technology Edition). vol. 23, no. 2 (2001), p. 22 [5] FAN Xiu-hong: Journal of Shandong University of Technology Science and Technology (Science and Technology Edition). vol.19, no.5 (2005), p.78 [6] Hutson Alisha, Lee Hyukjae, Mall Shankar: Tribology International. vol. 39, no. 10 (2006), p. 1187 [7] Candel Antonio, Gadow Rainer; Lopez Daniel: Ceramic Engineering and Science Proceedings. vol. 26, no. 3 (2005), p. 229 [8] Dearnley P.A., Kern E.; Dahm K.L.: Proceedings of the Institution of Mechanical Engineers, Part L: Journal of Materials: Design and Applications
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Preparation and characteristic of Composites with Wheat Straw Woodceramic / Attapulgite Wentao Wu1, a, FangliangTan2,b, FengXu3,c 1 School of Natural Resources and Environmental Engineering, Hefei University of Technology, Hefei 230009, China 2 School of Natural Resources and Environmental Engineering, Hefei University of Technology, Hefei 230009, China 3 School of Natural Resources and Environmental Engineering, Hefei University of Technology, Hefei 230009, China awwthfut@126.com, blulu_123456@yahoo.cn Keywords: wheat straw; woodceramics; composite materials; attapulgite.
Through the wooden ceramic surface morphology observation, to maintain the original wood charcoal tube hole structure, glass carbon in charcoal links and enhance [4].
[3] X.Y.Zhou,J.L.Liu,Research advancement of woodceramics[J].China ceramic industey .2006.04. 13(2).2- 3 [4] Fan T X, Hirose T, Okabe T, et al.Effect of components upon the surface area of woodceramics[J].
Journal of Porous Materials, 2002, 9, 35～42
Journal of xi'an jiaotong university. 1998, 32(8): 57-61.

Effect of Thermal Expansion and Sonication on Mechanical Properties and Adhesive Toughness Measurement of Polymer/Graphene Composite Nurul Idani Che Berhanuddin1,a, Syaiful Azmirul Mohd Rozlan1,b, Izzuddin Zaman1,c, Mohammad Sukri Mustapa1,d, Mohd Ezree Abdullah2,e, Irda Aryanie Bahrudin3,f 1Faculty of Mechanical and Manufacturing Engineering, Universiti Tun Hussein Onn Malaysia, 86400 Batu Pahat, Johor, Malaysia 2Faculty of Civil and Environmental Engineering, Universiti Tun Hussein Onn Malaysia, 86400 Batu Pahat, Johor, Malaysia 3Centre for Diploma Studies, Universiti Tun Hussein Onn Malaysia, 86400 Batu Pahat, Johor, Malaysia aidaniberhanuddin@gmail.com, bsyaiful_azmirul@hotmail.com, cizzuddin@uthm.edu.my, dsukri@uthm.edu.my, eezree@uthm.edu.my, faryanie@uthm.edu.my Keywords: Epoxy, Graphite, Composite, Thermal expansion, Sonication, Adhesion.
Introduction In this new globalization era, the development of new materials has become the main focus in the area of research whether it was done by material based-metal, polymer, ceramic or even composite materials.
Among the other types of matrix material such as metal and ceramic, polymer provide low manufacturing cost, so that it means with that characteristic, less energy is needed for production and recycling.
Journal of Industrial and Engineering Chemistry Vol. 21 (2015), p. 11-25 [3] A.K.
International Journal of Adhesion and Adhesives Vol. 57 (2015), p. 85-94 [8] Q.

Piazza, In Situ Evaluation of Nanostructured Treatments for Stone Consolidation in the Temple Valley of Agrigento, Journal of Materials Science and Engineering,3 (2013) pp. 646-652 [8] I.
Caran, Thermal effect on the physical properties of carbonate rocks, International Journal of Rock Mechanics and Mining Sciences, 47 (2010) pp. 94-103 [29] E.
Molli, Thermal stress in the Apuan marbles: Relationship between microstructure and petrophysical characteristics, International Journal of Rock Mechanics & Mining Sciences, 46 (2009) pp. 128–137 [30] M.
Esbert, Weathering, of building carbonate rocks under SO2 polluted atmosphere, Proceedings of 7th International IAEG Congress, Balkema, Rotterdam, 1994 [45] N.
Determinazione della resistenza all'invecchiamento dovuto a SO2 in presenza di umidità, 2004 [50] ISO 10678:2010 Fine ceramics (advanced ceramics, advanced technical ceramics).

Plasma Physics and Engineering, Institute of Electronics of the Bulgarian Academy of Sciences, 72 Tzarigradsko Shose Blvd., Sofia 1784, Bulgaria.
Azad, Fabrication of transparent alumina (Al2O3) nanofibers by electrospinning, Material Science and Engineering A 435 – 436 (2006) 468 – 473
Sabchevski, Rapid Sintering of Silica Xerogel Ceramic derived from Sago Waste Ash Using Submillimeter Wave Heating of a 300 GHz CW Gyrotron, Journal of Infrared, Millimeter and Terahertz Wave 32 (2011) 867 – 876
Sabchevski, Structural and Microwave Properties of Silica Xerogel Glass-Ceramic Sintered by Sub-millimeter Wave Heating using a Gyrotron, Journal of Infrared, Millimeter and Terahertz Waves, 2012, DOI: 10.1007/s10762-012-9925-7
Matori, Z.A Wahab, H.A.A Sidek, A.T Zainal, Effect of temperature on ceramic from rice husk ask, Intern.

Figure 1 Micro-nana fiber resonator gyro dynamic characteristic test system diagram 1: Laser; 2: the beam splitter; 3 to 7 constitute a resonator fiber optic inertial, and 3 is a signal fiber; 4 to fiber winding; 5 and 7 for the two symmetrical rectangular piezoelectric ceramic plate; 6 is a piezoelectric ceramic excitation power conductors; 8 is a reference fiber; 9 is a phase modulator; 10 is a photoelectric detector; 11 and 12 for the inverter, etc.; 13 and 14 for the band-pass filter.
Figure 8 Estimation error Figure 9 GA recognition results The transfer functions of the differential equation into the form: Conclusion Micro-nano and micro optical resonator gyro accelerometer is Micro-nana technology and information technology combine to produce a new type of inertial instruments, as one of nanophotonics research field of micro-and nano fiber resonator gyro developed and tested a lot of progress made ​​by electric simulation tests inertial instruments closed-loop frequency characteristic method, system test equipment development and testing methods of testing, accurate testing of the corresponding closed-loop system characteristics, based on the signaling pathway analysis and control system application of the principles of the new inertial instrumentation system for a fully parametric test trials to verify the validity of the test method, the test system has easily implemented in hardware, and more suitable for practical engineering
[2] Culshaw B.Optical Fiber Sensing and Signal Pracessing.1986.72 [3] J.Kennedy,R.Eberhart.Particle swarm optimization.IEEE International Conference on Neural Networks,1995,4,1942-1948
[5] J.E.Slotine,W.P.Li.On the adaptive control of robot manipulators.The International Journal of Robotics Research,1987,6(3):49-59 [6] O.Karahan,Z.Bingul.Modelling and identification of STAUBLI RX-60 robot. 2008 IEEE Conference on Robotics,Automation and Mechatronics,2008，Chengdu:78-83.

WC/Ti composite material enriched with cBN particles produced by pulse plasma sintering (PPS) Marcin Rosiński1,a, Andrzej Michalski1,b, Magdalena Płocińska1,c, Jerzy Szawłowski 1,d 1Warsaw University of Technology, Faculty of Materials Science and Engineering, Warsaw, Poland aninmar@inmat.pw.edu.pl, bmihalski@inmat.pw.edu.pl, cmagdalena.plocinska@inmat.pw.edu.pl, djsz@inmat.pw.edu.pl Keywords: cBN, hBN, composite, sintered carbide, titanium, PPS, SPS, pulse plasma sintering.
The PPS method has been used for sintering a wide variety of materials, such as diamond-WCCo [11] and diamond-Cu [12] composites, nanocrystalline sinters [13-15], and, in combination with the SHS reaction, for fabricating high-melting ceramics [16-18].
Yuan: Key Engineering Materials, Vol. 336 (2007) p. 1053 [9] V.
Siemiaszko: International Journal of Refractory Metals & Hard Materials, Vol. 25 (2007) p. 153 [11] A.
Rosiński: Journal of the American Ceramic Society, Vol. 91 (2008) p. 3560 [12] T.

Using Activated Diatomite as Adsorbent for Treatment of Arsenic Contaminated Water NGUYEN Hoc Thang1,a* and DANG Thanh Phong1,b 1Faculty of Chemical Engineering, Ho Chi Minh City University of Food Industry, Vietnam athangnh@hufi.edu.vn, bphongdt@hufi.edu.vn Keywords: diatomite, adsorbent, arsenic, wastewater, specific surface area.
Zhang, Foam-gelcasting preparation, microstructure and thermal insulation performance of porous diatomite ceramics with hierarchical pore structures, J.
Proceedings of the Eighth International Working Conference of Stored-Product Protection, York, U.K. (2002) 1-13
Promentilla, Evaluating thermal properties of geopolymer produced from red mud, rice husk ash and diatomaceous earth, ASEAN Engineering Journal. 4 (1) 51-65
Asian Journal of Materials Science. 2 (2010) 121-136

Effect of PyC Content in C/C Greenbody on Structure and Properties of 3D-C/SiC Composite Fabricated by Gas Silicon Infiltration Huiyong YANG, Rongjun LIU, Yingbin CAO, Dong LIN College of Aerospace & Materials Engineering, National University of Defense Technology, Changsha, Hunan, 410073, China yanghuiyong2006@126.com, Rongjunliu@163.com, caoyingbin@nudt.edu.cn, lindonghero@163.com Keywords: PyC content, C/C greenbody, 3D-C/SiC composite, GSI.
Journal of Materials Science & Engineering vol. 22(2004), p. 657-659, in Chinese
Ceramics International vol. 35(2009), p. 2161-2162
Journal of European Ceramics Society vol. 29(2009), p. 3091-3093.