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They also might provide avenues for materials design.
Materials Science and Engineering: A, 496 (2008) 14
Materials Science and Engineering A, 386 (2004) 205
Advanced Engineering Materials, 10 (2008) 24
Materials Science and Engineering, 464 (2007) 8

Railway Construction Research Institute of China Academy of Railway Sciences, 100081, Beijing, China 2.
For material property tests, the water-material ratio is 0.45, the application quantity is 1.25kg/m2, and the property index of II type CCCW C is tested.
Acknowledgements This work was financially supported by the Beijing Natural Science Foundation (8100001) and the foundation projects of China Academy of Railway Sciences (0951TJ1903).
Concrete Structures, Properties and Materials, Shanghai: Tongji University Press, 1991(In Chinese) [8] Corina-Maria Aldea and etc.
Journal of Materials in Civil Engineering, 1999,8; 181-186.

Research of The Properties of Basalt Fiber Reinforced Polymer Bar For Continuously Reinforced Concrete Pavement LIU Qiyang1, a, HE Min1,b 1Faculty of Transportation, Kunming University of Science and Technology, Kunming 650500,Yunnan Province, China alliuqqiyyang@163.com, bCorresponding author: 252419553@qq.com Keywords: continuously reinforced concrete pavement; basalt fiber reinforced polymer (BFRP) bar; basalt fiber-steel wire composite bar Abstract.
With continuous basalt fiber as reinforced material and synthetic resin as the matrix material and adding appropriate adjuvants, basalt fiber reinforced polymer (BFRP) bar form a new type of material after pultrusion processing and surface treatment technologies.
The experimental study of mechanical properties and mechanical characteristics of BFRP bars Basalt fiber reinforced polymer (BFRP) bar is a kind of material that is used continuous basalt fiber as reinforced material and synthetic resin as the matrix material, adding appropriate adjuvants and moulding through the pultrusion processing and surface treatment technologies.
It is significantly different from rebar that BFRP bar is linear elastic material which doesn’t have yield phase.
Journal of Southwest Jiaotong University, Vol.45 No.6 (2010),p.915.

Lu：Materials Science and Engineering A.
Lu：Nanostructured Materials, Vol. 11（1999）, P. 433 [4] Dema Ba, Shining Ma, Changqing Li and Fanjun Meng：Journal of University of Science and Technology Beijing.
Wang, et al：Science.
Li,et al：Materials Science and Engineering A.
Vol. 352 （2003）, P.144 [8] Barbucci A,Farne G,Matteazzi P,et al：Corrosion Science,Vol. 3（1999）, P.463

The value of primarily depends on contact state and material properties.
Nanotribology and nanomechanics of MEMS/NEMS and BioMEMS/BioNEMS materials and devices．Microeleetron[M]．Eng．84，387(2007)
Interface science and technology[M].
Science Press, (2008),in chinese
Chinese Journal of Mechanical Engineering, (2002), 38(3): 1-5,in chinese

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Magaña: Journal of Molecular Catalysis A: Chemical Vol. 228 (2005), p. 183 [16] H.
Sato: Solar Energy Materials & Solar Cells Vol. 90 (2006), p. 2867 [17] H.
Patil: Materials Science and Engineering: B, Vol. 130 (2006), p. 220 [20] S.
Abdel-Hady: Applied Surface Science Vol. 252 (2006), p.8651 [33] A.

Hence the application of this novel parameter for the quantitative characterization of surfaces could be beneficial in all of the areas dealing with mechanical surface properties as covered by material science.
Materials and Methods AFM measurements were performed with a Veeco diInnova scanning probe microscope (SPM).
(Hungary) #3 glass 1 Cr 40 200 MTA-MFA** #4 polyester 0,1 Ti 2 - 3 200 BME-FAT* *BME-FAT: Budapest University of Technology and Economics (BME), Department of Atomic Physics (FAT) **MTA-MFA: Hungarian Academy of Sciences (MTA), Research Institute for Technical Physics and Materials Science (MFA) Figure 1 compares the different background correction algorithms used for the post processing of the AFM images.
Iost, Relevance of roughness parameters for describing and modelling machined surfaces, Journal of Materials Science, 38 (2003) 2525 – 2536
Jovin, Background correction in scanning probe microscope recordings of macromolecules, Surface Science 359 (1996) 291-305

Natural fibers from renewable natural resources have a potential to replace traditional reinforcement materials, such as glass or carbon fiber and inorganic fillers [2,3].
Experimental The materials used in this work are as in Table 1.
Fourier Transform Infra-red (FTIR) Analysis was conducted by using FTIR model Perkin Elmer Series 2, to analyze the functional group chemical composition of raw materials of PP, NBRr and BSP.
Buchanan, Potential of Jamaican banana, coconut coir and bagasse fibres as composite materials, Materials Characterization. 59 (2007) 1273-1278
Gassan, Composites reinforced with cellulose based fibers, Polymer Science. 24 (2) (1999) 221-274

(6) As AC varies with different surface materials, temperatures and surface roughness, its value isn’t constant.
Acknowledgments This work was jointly supported by the Natural Science Foundation of Shandong Province, China (Grant No.
Z2008F06), the Tribology Science Fund of State Key Laboratory of Tribology, China (Grant No.
Li: ASME Journal of Tribology.

Short Communication A Likely Virus Was Observed from Chinese Chestnut Zheng-lin Tan1,2,3,a, Mou-cheng Wu 2,b, Jie Li2,c, Qing-zhang Wang 2 ,d, Hua-xi Yi4*,e 1,College of Tourism and Hotel Management, Hubei University of Economics, Wuhan 430205, China 2,College of Food Science and Technology, Huazhong Agriculture University, Wuhan 430070, China 3,Research Center of Hubei Logistics Development, Wuhan 430205,China 4* School of Food Science and Engineering, Harbin Institute of Technology, Harbin, China atanzhenglin@hbue.edu.cn, bwumch98@mail.hzau.edu.cn, clijie1976@mail.hzau.edu.cn, dqingzw@mail.hzau.edu.cn, eyihx2006@yahoo.com.cn Zheng-lin Tan.
Materials and methods The chestnut and storage conditions The chestnut came from Shimen Town, Huangpi Region, Wuhan City（China） in the middle ten days of September.
Journal of Forestry,2000,98(2), p. 22-27