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Colloid and materials science for the conservation of cultural heritage: cleaning, consolidation, and deacidification.
Journal of colloid and interface science, 392, 42-49
Materials Characterization, 61(2), 168-184
New frontiers in materials science for art conservation: responsive gels and beyond.
Materials & Design, 114, 364-372

Electromagnetic Shielding Effectiveness of Cement Based Materials with scrap tires wire –FeCuNbSiB Amorphous Alloy Powder Shaowen Huang1,2,a, Xiaoshun Yi2,b ,Guanghua Chen2,c , Min Deng1,d and Mingshu Tang1,e 1School of material science and engineering, Nanjing University of Technology , Nanjing , Jiangsu 210009 , China 2School of material science and engineering, Nanchang University, Nanchang , Jiangxi 330031, China ahuangsw@163.com, b subc136@yahoo.com.cn, c chenjianhua8882002@yahoo.com.cn, d dengmin@njut.edu.cn, e tangms@njut.edu.cn Keywords: Scrap Tires Wire; Amorphous Alloy Powder; Cement-Based Material; Shielding Effectiveness Abstract.
Wide application scope, large size and too much consumable are features of building shielding materials, which is different from shielding materials used in electronic industry, so cost reduction is needed.
Materials and Methods Materials.
As metallic materials, amorphous alloy have high conductivity.
Reference [1] Xiaohui Zhang, Qing Kang, Shoubing Xu: Journal of Functional materials Vol .38 (2007), p.2978-2980, In Chinese [2] Sihai Wen , D.D.L.Chung:Cem and Con Res Vol .34 (2004),p. 329–332 [3] Jianping Wu, Wu Yao, Xiaoyan Liu.

ARB is carried out in homogenous and heterogeneous materials to bring out the useful applications of ultrafine grained materials.
Microstructure describes the grain refinement in ARB processed materials.
Development of composite materials is investigated and is used for relevant applications and ARB is also used to develop advanced materials through heterogeneous processing’s.
Each pass shows distinct property of materials, hence, each pass shall be analyzed carefully to understand the point at which the material starts to bond with the pairing materials.
After the specimen preparation, the required material is annealed; the annealing temperature varies depending on materials used.

It is effective and fast method with less wastage of raw materials.
Many companies have shifted their focus to use these materials which weigh less and are durable and efficient.
Ochi: Tensile Properties of Bamboo Fibre Reinforced Biodegradable Plastics, International Journal of Composite Materials 2(1): (2012), p. 1-4
Elias: Review Bio-composites: technology, environmental credentials and market forces, Journal of the Science of Food & Agriculture 86: (2006) 1781-1789
Sperber: Cars from bio-fibres, Macromolecular Materials and Engineering (5): (2006), p. 449-457

Coal spontaneous combustion mechanism and Research of New Flame Retardant Material Wenhua Pang1, a, Ruxiang Qin2,b 1College of Energy and Security, Anhui University of Science & Technology, Huainan, 232001, China 2College of Energy and Security, Anhui University of Science & Technology,Huainan , 232001, China aemail: wenwen91804@sina.cn, bemail: 309374919@qq.com Keywords: Coal Spontaneous Combustion; Free Radical Reaction Mechanism; New Flame Retardant Materials; The Inhibitor Agent Abstract.
By analyzing the mechanism of coal spontaneous combustion, this paper summarizes the deficiency of existing flame retardant materials, to expound their thoughts on new flame retardant materials research trent.
Therefore, the material selection extended to the field of fire protection materials, in order to find the best fire-retardant materials, to achieve the best resistance of the results, will be a new trend.
Journal of Coal, 1998, 23(6) 620
Journal of ChinaUniversity of Mining, 1996, 25(3) 112-113

In the fields of materials science and engineering, measuring temperature has become one of the most fundamental and important issues.
Ultrasound is expected to be an alternative for monitoring the internal temperature and its gradient in materials because of its capability to probe the interior of materials and its high sensitivity to temperature [2-7].
Measurement Science Technology, 16 (2005) 548-555
Ihara, Ultrasonic monitoring of internal temperature distribution in a heated material, Japanese Journal of Applied Physics 47 (2008) 3894-3898
Ihara, (2009), Quantitative evaluation of one-dimensional temperature distribution on material surface using surface acoustic wave, Japanese Journal of Applied Physics, 48, (2009) 07GB04-1-5

ME Molecular Dynamics Simulation of the Sintering Process of the Porous ITO Material Xiaolong Zhou1,2, a, Jianchun Cao1,b , Hao Feng1,2,c , Yu Cao1,2,d , Yongjun Fan1,2,e and Jingchao Chen 1,2,f 1Faculty of Materials Science and Engineering, Kunming University of Science and Technology, Kunming 650093, China 2 Key Laboratory of Rare-Precious and Nonferrous Metal Advanced materials (Kunming University of Science and Technology), Ministry of Education, Kunming 650093, China akmzxlong@163.com, bnmcjc@163.com, c 174925629@qq.com, dconnor521@foxmail.com, e815892397@qq.com, fchenjingchao@kmust.edu.cn Keywords: Materials Explorer, porous ITO, sintering process, molecular dynamics simulation, compared with experimentation.
Simulated the sintering process of the porous ITO gas-sensitive material with Materials Explorer 5.0.
Study found that the porous form could increase the specific surface area and the surface active sites of gas-sensing materials, point a new direction to improve the gas sensing performance of gas-sensing materials[3-6].
Acknowledgements This work was financially supported by the natural science foundation of yunnan province of china under grant (No. 2008E028M; 2008CD087), Mand key laboratory of rare-precious and nonferrous metal advanced materials (Ministry of education) under grant (No.
Journal of Anhui Normal University(Natural Science).

Material and Methods Materials and Flow Field Device.
Feyerabend, Degradable biomaterials based on magnesium corrosion, Current Opinion in Solid State and Materials Science, vol. 12, no. 5–6, pp. 63–72, 2008
Wendel, Blood triggered corrosion of magnesium alloys, Materials Science and Engineering B, 176 (2011) 1761-1766
Migliavacca, Finite element analyses for design evaluation of biodegradable magnesium alloy stents in arterial vessels, Materials Science and Engineering: B, vol.
McHugh, Comparing coronary stent material performance on a common geometric platform through simulated bench testing, Journal of the mechanical behavior of biomedical materials, vol. 12, pp. 129–38, Aug. 2012

Introduction Composite materials make up a separate section of materials science and form their own segments of production, in some cases they form the whole industry.
The obtained materials are used for the manufacture of functional materials.
Bandyopadhyay, Nano Materials, New Age Science. 2009
Monmaturapoj, Nano-size Hydroxyapatite Powders Preparation by Wet-Chemical Precipitation Route, Journal of Metals, Materials and Minerals. 18 (1) (2008) 15-20
Materials Science and Engineering.

International Journal of Engineering Science and Technology Vol. 2(11) (2010), pp. 6464-6473
Materials and Manufacturing Processes Vol. 26(8) (2011), pp. 1011-1018
Journal of Materials Engineering and Performance (2011), pp. 1-10
Materials Science and Engineering: A 466(1–2) (2007): 61-67
Journal of Mechanical Science and Technology Vol. 17(10) (2003), pp. 1475-1484.