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Research on Thermal Conductive and Insulating Material Based on Phosphoric Acid Adhesive Yongde Hao1, a, Haokun Liu1, b, Xuan Xiong1,c 1Department of Electronic Science & Technology, Hua Zhong University of Science and Technology, Wuhan, Hubei, 430074, China aydh901@sina.com bliuhaokun1987@yahoo.cn cxuanxiong2011@gmail.com Keywords: thermal conductive and insulating material; phosphoric acid adhesive; inorganic non-metallic materials; aluminum substrate Abstract.
Metals, like cooper and aluminum and other metals, possess higher thermal conductivities than other materials (Cu: 393 W/ (m·K), Al: 214 W/ (m·K)) and should be the most applicable materials to prepare metal substrate.
References [1] Wenying Zhou, Shuhua Qi, Ke Wu, Caifeng Wang, Jingli Kou: Materials Science and Technology Vol. 17(2009), p. 360-363.
Ferreira: Journal of Colloid and Interface Science Vol. 261(2003), p. 456-463
Chung.: Journal of Materials Science Vol. 36(2011),p. 5079-5085

Synthesis of porous materials.
Characterization of materials.
For comparison also ceramic materials, fibers and other natural materials are reported.
Lenaerts, Photocatalytic degradation of soot deposition: Self-cleaning effect on titanium dioxide coated cementitious materials, Chemical Engineering Journal 222 (2013) 411–418
Materials and Design: The Art and Science of Material Selection in Product Design, third ed.

In this paper, lateral pressure of bulk materials in silos is discussed.
With the increase of the height of bulk materials, this deviation may become greater and greater.
Journal of Engineering Mechanics, Vol. 127, No. 10, (2001), p. 1033-1043
Journal of Building Structures, Vol. 16, No. 5, (1995), p. 57-63.
Architectural Science, Vol. 14, No. 4, (1998), p. 14-18.

Boucher : Journal of Material Science, Vol.11-9, p1734-1750(1976) [7] F.
Radjy : Journal of Material Science, Vol.9-5, p744-752(1974) [8] H.W.
Westford Massachusetts: Building Science Press Inc, 293-365 (2005) [11] Li, Kuishan, Zhang, Xu, and Gao, Jun :Journal of BUILDING PHYSICS, Vol. 32- 4 (2005) [12] Menghao Qin, Rafik Belarbi, Abdelkarim Aït-Mokhtar and Lars-Olof Nilsson:Journal of Material Science, Vol.43-10, p 3655-3663(2008) [13] Q.
Y L: Journal of Material Science, Vol.40-4, p 1013-1015(2005) [14] Richards, R.F., Burch, D.M. and Thomasl, W.C.
N., DIAMONO S: Journal of Materials, Vol.5-3, p564 (1970) [17] WINSLOW N.

Research on Biological Materials with Effect of Constant Magnetic Field Intervention on Bone Growth and Development in Rabbits Lin Lv1,a, Jianhui Yang 2,b 1.Department of Physical Education, Yanshan University, Qinhuangdao 066004, China 2.Harbour Vocational & Technical College of Building Materials, Qinhuangdao 066004, China amghllin@163.com Keywords: Biological materials, Constant magnetic field, Rabbit bone growth and development, Experimental model Abstract.
Biological materials with effect of constant magnetic field were attached to the hind legs of rabbits in the experimental group for a period of 4 months.
Research Method 2.1 Experiment Materials and Subjects Sixteen inbred strains of Japanese white rabbits of clean grade (male), all 7 years old and (2.5±0.3)kg of weight, were provided by the Department of Animal Science of Hebei Normal University of Science Technology.
Conclusion In this study, the designed biological materials with effect of constant magnetic field intervention display obvious effect on bone growth.
China Science.

Inheritance and Innovation of Ecological Materials from Traditional Buildings in Zhejiang, China Danhua Ying 1, a, Xuanang Hu 2,b , Jian Ge 3,c , Dianxin Jia 4,d, Yan Zhu 5,e 1-5 Department of Architecture, Zhejiang University, Hangzhou, 310058, China; Semitropical Archi-Science National Key Laboratory, South China University of Technology, Guangzhou, 510640, China; ayingdanhua1987@gmail.com, b hxa2011@zju.edu.cn , c gejian1@zju.edu.cn, djiadianxin@gmail.com , e yzhu@zju.edu.cn , Keywords：Zhejiang traditional building materials, advanced building materials，survey, inheritance，innovation，agricultural waste, plant fiber, industrial waste, synthetic materials, composite material Abstract：This article engages in a survey on the countryside’s building materials in Zhejiang province, and indicates problems in the new countryside construction during the early 1990s to 2005: on one side, rarely few new materials for energy-conservation is being used; on the other side, traditional materials
So a range of materials which make improvement or innovation on traditional or materials in Zhejiang rural areas are enumerated. 3.
Inheritance and innovation of ecological materials from traditional house 3.1 Inheritance and improvement of renewable recyclable organic eco-materials These materials are used widely in the dwellings in the past.
Journal of Zhejiang Wanli University. 2005: 53-56
Journal of Panzhihua University. 2010: 27-29

The achievements will lay solid foundation for the development of lithium adsorption materials.
These ion-sieve materials have so many advantages, such as good selectivity, low cost, large adsorption capacity and stable chemical constitution, which make them the most prospective green materials for the industry of lithium extraction[2,3].
Table 1 Experimental factors and levels factor A Li/Mn ratio of raw materials B addition of oxidant /ml C holding time /h level 1 2 3 3.5 4 4.5 60 95 115 12 18 24 Evaluation index: adsorption capacity of the adsorption materials Q (mg/g).
Moreover, the significance level of Li/Mn ratio of raw materials is 0.1.
References [1] Ting Chen, Shuyi Yan, Zihua Kang: Jounral of Salt and Chemical Industry, Vol. 36 (2007), p. 19 (In Chinese) [2] Kelleman D G, Gorshkov V S: Russian Journal of Electrochemisty, Vol. 37 (2001), p. 1227 [3] Koyanaka H, Matsubaya O, Koyanaka Y, et al: Journal of Electroanalytical Chemistry, Vol. 559 (2003), p. 77 [4] Chitrakar R, Kanoh H, Miyai Y, et a1: Ind Eng Chem Res, Vol. 40 (2001), p. 2054 [5] Kaitai Fang, Changxing Ma: Orthogonal and Uniform Experimental Design (Science Press, CHN 2001)

Materials and Method Raw materials.
The chemical composition of raw materials.
Roongreung, Cementing material from calcium carbide residue-rice husk ash, Journal of Materials in Civil Engineering 15(5) (2003) 470-475
Laosamathikul, Effects of calcium carbide residue–fly ash binder on mechanical properties of concrete, Journal of Materials in Civil Engineering 22(11) (2010) 1164-1170
Kajitvichyanukul, Microstructure of calcium carbide residue–ground fly ash paste, Journal of materials in civil Engineering 23(3) (2011) 298-304

Multiscale Parameter Identification Method for Three Dimension Steady Heat Transfer Model of Composite Materials TangWei Liu1,2,3,a , HeHua Xu1,b , XueLin Qiu1,c , and XiaoBin Shi1,d 1CAS Key Laboratory of Marginal Sea Geology, South China Sea Institute of Oceanology, Chinese Academy of Sciences, Guangzhou, 510301,P.
China atwliu@ecit.cn, b xhhcn@scsio.ac.cn, c xlqiu@scsio.ac.cn, d xbshi@scsio.ac.cn Keywords: Multiscale Method, Parameter Identification, Three Dimension Heat Transfer Model, Composite Materials.
In this paper, for heat conductivity identification of three dimension steady heat transfer model of composite materials, a new hybrid Tikhonov regularization mixed multiscale finite-element method is present.
Method of Inverse Problem for Surface Heat Flux(in Chinese), Journal of Nanchang University(Natural Science), 29(3):261-265(2005) [12] HE Xinguang , REN Li, Adaptive multiscale finite element method for unsaturated flow in heterogeneous porous media I.
Numerical scheme(in Chinese), SHUILI XUEBAO, 40(1),38- 45(2009) [13] XUE Yu-qun, YE Shu-jun, XIE Chun-hong, ZHANG Yun, Application of multi-scale finite element method to simulation of groundwater flow(in Chinese), SHUILI XUEBAO,7,7-13(2004) [14] Aixiang Huang, TianXiao Zhou, Theories and Methods of Finite Element(I)(in Chinese), Science Press, Beijing, 164-167(2009) [15] Yu Changming, Numerical Analysis of Heat and Mass Transfer for Porous Materials(in Chinese), TsingHua University Press,Beijing(2011) [16] Curtis R.

Design of lotus-leaf-like Decoration Materials Ruihong Wu ShiJiaZhuang Vocatinal Technology Institute, China Email: eyesnow@163.com Keywords: decoration materials, lotus-leaf-like, crepe weave, water repellent, Abstract.
Introduction Building materials which are divided into constructing buildings include structure material (stone, cement, plastics and composite materials ,etc)，decorative material（common coatings, paints, tiles ,etc）and special effects special materials[1].As science and technology updates and the emergence of new materials, requirements for building materials have been improved, not only to meet the operating requirements, but also to have special properties such as environmental protection, radiation protection, energy conservation [2] which have put forward higher requirements for traditional building material [3].
However, no paper about indoor decoration materials has been reported.
Materials restore the original shape when the material subject to external forces squeeze.
Tian: submitted to Materials Letters(2004) [4] J.L.Guo in: Environmental engineering materials and forming processes, edited by X.S.Song, China Environmental Science Press English Publishers(2005) [5]C.T.Hsieh,J.M.Chen,R.R.Kuo,T.S.Lin,C.F.Wu: submitted to Applied Surface Science (2005) [6] X.Wei, Z,Y.Gu, L,Wu: submitted to Journal of Textile Research(2008) [7] W.Q.Du: submitted to Dyeing and Finishing(2001) [8]M.Yang: submitted to Journal of HuangShi Institute of Technology (2009)