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Tab. 5 Comparison of fires development SR/Area/Region Year Fires Difference 2012/2008 Direct material losses (thousand EUR) Killed persons Injured persons SR in total 2008 11 045 43 480.8 68 232 2009 11 991 38 761.4 56 245 2010 9 851 69 148.4 41 244 2011 13 677 33 561.1 56 267 2012 14 413 41 394.5 44 232 1.30 Nitra Region 2008 1 294 4 859.6 6 33 2009 1 247 3 495.4 14 32 2010 900 15 336.4 4 32 2011 1 272 2 586.0 6 35 2012 1 473 2 252.2 6 25 1.13 Source: Database of the Statistical Office of the Slovak Republic From the data it is clear that the number of fires in the Slovak Republic had become 1.3 fold for the period 2008-2012, while in conditions of Nitra Region is the increase in the number of fires smaller.
Majlingová et al.: Modification of procedure to initiate the solids according to EN 60695-2-10 for materials used in historic buildings.
In European journal of environmental and safety sciences: scientific journal of the European Science and Research Institute and the Association of Fire Engineering. - ISSN 1339-472X. - Vol. 1, Issue 1, 2013, p. 8-12
Ivanovičová: Assessment of fire risk of selected agglomerated wooden materials.
In Research journal of recent sciences.

Journal Citation (to be inserted by the publisher ) Copyright by Trans Tech Publications Biomimetic Coating of Laminin -Apatite Composite Layer onto Ethylene-Vinyl Alcohol Copolymer Ayako Oyane1, Masaki Uchida 2 and Atsuo Ito3 1 Research Center of Macromolecular Technology, National Institute of Advanced Industrial Science and Technology, 2-41-6 Aomi, Koto-ku, Tokyo, Japan, a-oyane@aist.go.jp 2 Institute for Human Science and Biomedical Engineering, National Institute of Advanced Industrial Science and Technology, 1-1-1 Higashi, Tsukuba, Ibaraki 305-0046, Japan, uchida-m@aist.go.jp 3 Institute for Human Science and Biomedical Engineering, National Institute of Advanced Industrial Science and Technology, 1-1-1 Higashi, Tsukuba, Ibaraki 305-0046, Japan, atsuo-ito@aist.go.jp Keywords: Apatite, laminin, biomimetic method, ethylene-vinyl alcohol copolymer (EVOH) , composite, skin terminal Abstract.
A polymeric material with a laminin-apatite composite layer on its surface should be a promissing candidate as an ideal skin terminal, because apatite provides the material with good biocompatibility [3], whereas laminin, which is a cell adhesion molecule for epithelial cells, provides the material with strong skin-adhesiveness [4].
Title of Publication (to be inserted by the publisher) Materials and Methods Preparation of specimens.
This kind of composite material has great potential as a skin terminal with improved adhesiveness to skin tissue as well as good biocompatibility.
Aoki, Science and medical applications of hydroxyapatite, Takayama Press, Tokyo 1991, pp. 152 [3] M.

Advance polymer materials acquired by utilizing modification technology have attracted more and more attention.
This article aims to prepare active packaging materials with controlled release of antimicrobial agent, using polymer surface modification technology and drug controlled release technology.
Materials and Methods Materials.
Chen: Journal of Applied Polymer Science, Vol.88 (2003), p.1726-1736 [6] M.H.Kunita, E.M.
Rubira: Brazilian Journal of Chemical Engineering., Vol. 23(2006), p.745-749

Teik Chan: On the effects of hydrogenation of thin film polycrystalline silicon: A key factor to improve heterojunction solar cells, Solar Energy Materials and Solar Cells, Vol.122 (2014), p.31-39 [4] A.
Khalili: Temperature dependence of InGaN/GaN multiple quantum well based high efficiency solar cell, Solar Energy Materials and Solar Cells, Vol.95 (2011), p.3124-3129 [5] P.
Ravindra: Temperature dependence of solar cell performance—an analysis, Solar Energy Materials and Solar Cells, Vol.101 (2012), p.36-45 [6] M.
Pivac: Effects of low-temperature annealing on polycrystalline silicon for solar cells, Solar Energy Materials and Solar Cells, Vol.95 (2011), p.559-563 [8] S.
Weingaertner: Numerical investigations of solar cell temperature for photovoltaic concentrator system with and without passive cooling arrangements, International Journal of Thermal Sciences, Vol.50 (2011), p.2514-2521 [9] P.

Introduction As the result of greater environmental awareness, the demand for environmentally friendly materials is significantly raised.
Currently, several cellulose solvent systems have been available for the preparation of all cellulose composite materials.
Methodology 2.1 Materials In this research, microcrystalline cellulose (MCC) with particle size of 50µm, Acetone and Sodium Chlorite was supplied by Sigma-Aldrich, USA.
Gatenholm: Journal of applied polymer science.
Conrad: Textile Research Journal.

Materials and Methods Materials and Medium.
[15] Shen Li: Nankai university college of life science. (2005), p. 31.
(In Chinese) [16] Xiaoyan Z., Zhenya Z. and Yingnan Y.: International Journal of Biology.
[17] Anahita K., Norhani A. and Siew L.L.: Animal Science Journal.
[18] Feng Cao, Beilei Dong and Xiaobing Lu: Science and Technolog.

Optimization of Injection Molding Process Parameters with Material Properties Based on GA and BP Xiaohong Tan1,2, a, Leigang Wang1,b ,Wenshen Wang1,2,c 1 School of Material Science and Engineering, Jiangsu University, Zhenjiang, Jiangsu, 212013, China 2 Office of Die Teaching and Research, Zhejiang Industry & Trade Polytechnic, Zhejiang, 325003, China aseafairy@163.com, b lgwang@ujs.edu.cn, chnwzwws@163.com Keyword: Genetic algorithm (GA)；Neural network algorithm (BP)；Injection molding process optimization；The axial deformation Abstract: To obtain optimal injection process parameters, GA was used to optimize BP network structure based on Moldflow simulation results.
Once material and mold structure are determined, the molding process parameters come to be the only factor which affect the quality of plastic parts.
In this paper, using GA, the input variables required by BP are optimized selected, so that the prediction performance of the model can be improved. 1 Experimental Design 1.1 3D modeling of the axial deformation analysis In this study, PP –Globalene 6331 material for deformation are used.
Yamagata, A study on optimal compensation cutting for an aspheric surface using the Taguchi method, CIRP Journal of Manufacturing Science and Technology 3 (2010) 40–48

Influence of solution treatment on atomic diffusion and mechanical properties of AZ80 magnesium alloy Jumei Zhang 1,a, Zhihu Wang 2,b, Wanchang Sun 1,Libin Niu1 1School of Materials Science and Engineering, Xian University of Science & Technology, Xian 710054,China； 2School of Materials Science and Engineering, Xian University of Technology, Xian 710048,China afeiyue-zjm@163.com, bzhihu_wang@163.com Keywords: AZ80 magnesium alloy; solution treatment; atomic diffusion; mechanical property Abstract.
Experimental The material investigated in the present study had the following chemical composition (wt%):8 Al, 0.2 Zn,0.3 Mn, Mg bal.
Acknowledgements This work was financially supported by the Education Fund of Xian University of Science & Technology of China (200812) and the Doctor Foundation of Xian University of Science & Technology of China(A5030916).
Nonferrous Met.Soc.Vol.13(2003),p. 1253 [3] A.K.Dahle, Y.C.Lee, M.D.Nave, P.L.Schaffer and D.H.Stjohn: Journal of Light Metals.Vol.1 (2001), p.61 [4]J.M.Zhang, B.L.Jiang, Z.H.Wang, S.Yuan, H.Q.Nan and H.B.Luo:China Foundry.
Vol.4 (2007), p.296 [5]W.Huang,D.Li:Transactions of Materials and Heat Treatment.Vol.27(2006),p.37.

Characteristics of Gas Sensors based on Single-walled Carbon Nanotube Bundles Treated by Acid Stirring Hong-Quang Nguyen1,a), Shao-Lin Zhang1, Gi-Hong Rue2 and Jeung-Soo Huh1,a) 1 Department of Materials Science and Metallurgy, Kyungpook National University, 1370 Sangyuk-dong, Bukgu, Daegu 702-701, South Korea 2 School of Electronic Engineering & Computer Science, Kyungpook National University, 1370 Sangyuk-dong, Bukgu, Daegu 702-701, South Korea a) Corresponding author: jshuh@knu.ac.kr , quang_nh2002@yahoo.com Keywords: Acid treatment, Carbon nanotube, Characteristics, Gas sensor, Sensitivity.
Yamadab: Materials Science and Engineering B, Vol.108 (2004), p. 143 [2] Jun Li, Hou Tee Ng: Encyclopedia of Nanoscience and Nanotechnology (Ed.
Dai: Science, Vol. 287 (2000) p. 622 [4] J.
Materials Science.
Pietrass: Journal of Physical Chemistry B, Vol. 109, (2005) p. 4455 [10] M.

Preparation of waterborne epoxy resin emulsion Hao Ran-Zhou1,a, Yun Fei-Yang2,b, Xiao Jiao-Liu3,c 1,2,3The College of Materials Science and Engineering, Harbin University of Science and Technology, Harbin Linyuan road 4, 150040, China ahaoran1963@hotmail.com by40703837@163.com cliuxiaojiao1021@126.com Key words: Maleic anhydride; Self emulsifying; Waterborne epoxy resin Abstract: The hydrophilic carboxylic group was induced into the main chain of the bisphenol-A-type epoxy resin via alcoholysis reaction between the maleic anhydride and he secondary hydroxyl group of the bisphenol-A-type epoxy resin.
Experimental Materials Epoxy resin E-44:Lan Xing New Material Wuxi Resin Corporation; Maleic anhydride: Tian Jin Guang Fu fine chemicals Co.LTD; anhydrous ethanol: Tian Jin FuYu fine chemicals Co.LTD; butyl acetate: Tian Jin FuYu fine chemicals Co.LTD; Dibutyltin dilaurate(DBTL): Tian Jin Guang Fu fine chemicals Co.LTD; Ammonia water: Tian Jin Guang Fu fine chemicals Co.LTD;acetone: Tian Jin Guang Fu fine chemicals Co.LTD.
Journal of Applied Polymer Science[J], 2001, 81(1):128-133 [2] E.
Progress in Polymer Science[J], 1997, 22: 207~222 [4] ZHOU Hua, CAO Rui-jun, LIU Li-xin.
Polymer Materials Science and Engineering, 2010, 26(2): 1-3 [5] CHENG Ping, LIU Sheng-ping.