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Acknowledgements The work described in this paper has been fully supported by the National Natural Science Foundation (Project No.51208023) and Open Research Fund Program of Beijing Higher Institution Engineering Research Center of Structural Engineering and New Materials, Beijing University of Civil Engineering and Architecture).
Geotechnical and Geological Engineering: an international journal, Springer 26(4): 417-430
Canadian Geotechnical Journal 41(6): 1098–1110

This paper analyzes influence factors of the large area thin film materials plasma graft polymerization uniformity; applies simulation software and mathematical models; makes optimized design to the hollow cathode discharge electrodes and graft polymerization distributing pipe.
This paper analyzes influence factors of the large area thin film materials plasma graft polymerization uniformity; applies simulation software and mathematical models; makes optimized design to the hollow cathode discharge electrodes and graft polymerization distributing pipe .
Grafting monomer gas distribution system is used for large area plasma processing apparatus of the thin film material, the requirements to be able to handle a width in the above1.5m film material.
Plasma discharge principle and material processing, Science Press, Beijing, 2007
Guangdong Non-Ferrous Metal Journal. 5 (2002) 21-24.

The effect of modifications on humidity parameters of cement mortar Maria Wesołowska1, a *, Anna Kaczmarek1,b 1 University of Science and Technology in Bydgoszcz, Department of Building and Building Physics, POLAND a* marysia@utp.edu.pl, banna.kaczmarek@utp.edu.pl, Keywords: mercury porosimetry, mortar, facing walls Abstract.
Moisture transport takes place in mesoporous material, and moisture adsorption takes place on the surface of such materials.
The basic information in this range the structure of the material.
The mercury porosimetry used the unique properties of mercury: - this liquid do not moisten the material (surface tension σ (293K) = 42.8·102 N·m-1 that is why in contact with porous material it does not penetrate into pores of the material, - exhibits low variation of material moistening angle (from 112˚-142˚, 130˚ is commonly accepted value).
[2] Moropoulou A. at all Investigation of the technology of historic mortars Journal of Cultural Heritage Vol. 1, Issue 1, January 2000, pp. 45–58

Experimental Materials.
Gang, et al: Materials Chemistry and Physics.
Star: Journal of Polymer Science.
Baraton: Nanostructured Materials.
Yu: Advanced Materials Research Vol. 97 (2010), pp.1677

Effect of high–temperature heat treatment on mechanical property of Cr-geopolymer composite Mei-rong WANG1, a, Yi ZHENG1, b, De-chang JIA2, c and Yu ZHOU2, d 1 Shandong Provincial Key Laboratory of Ocean Environment Monitoring Technology, Institute of Oceanographic Instrumentation, Shandong Academy of Science, China 266001 2 Institute for Advanced Ceramics, Department of Materials Science, Harbin Institute of Technology, China 150080 awmr21c@163.com, bbitzhengyi@163.com, cdcjia@hit.edu.cn, dzhouyu@hit.edu.cn Keywords: Geopolymer, Composites, Chromium Particles, Heat Treatment, Mechanical Property Abstract.
Geopolymer materials are regarded as the most promising substitute for aircraft composites and cabin interior applications instead of polymer materials in a research program by U.S.
In order to improve the thermal conductivity and mechanical properties of geopolymerical materials, metal particle was chosen as the reinforcement in our investigation.
Experimental Materials preparation.
Davidovits: Geopolymers: Journal of Thermal Analysis, Vol. 37 (1991), p. 1633 [3] V.F.F.

Doorbar: Materials Science and Technology.
Journal of Science and Technology of Particle Materials.
Materials Science Forum.
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Gür: Materials Science and Engineering A361 (2003), p. 29 [9] C.H.

Materials Science Forum Vols. *** (2004) pp.834-838 online at http://scientific.net  2004 Trans Tech Publications, Switzerland The Experiment Analysis and Numerical Simulation on Fracture of Complex-shaped Part Drawing Z.Z.
China 2 School of Materials Science and Engineering, Harbin Institute of Technology, P.
Materials Science Forum Vols. *** 835 The mechanical properties of the material used in this investigation are displayed in Table1.
Materials Processing Technology Vol. 50 (1) (1995), p. 1 [8] A.
Finn: International Journal of Plasticity Vol. 16 (2000), p. 701.

Materials Science and Engineering A, 2004, 382: 112-121
Materials Science and Engineering C, 2001, C17: 133-136
Materials Science and Engineering C, 2001, C17: 133-136
Journal of Materials Engineering, 1993, 4(2): 13-16
JOURNAL OF CENTRAL SOUTH UNIVERSITY OF TECHNOLOGY, 2001, 21(6): 528-531

Introduction Polyurethanes (PUs) are a very large and varied family of extraordinarily versatile and useful engineering materials.
The structures of raw materials, i.e., isocyanates or alcohols, are an important factor to affect the urethane reaction kinetics.
Experimental parts Materials and instruments.
Progress in Materials Science Vol. 52 (2007) p. 915 [2] S.G.
European Polymer Journal Vol. 34 (1998) p. 1273 [9] J.H.

Currently, the revetment of campus waterpront landscape is excessively using hard materials as concrete or masonry, not only destroyed water temperature relationship of the natural riparian, accelerated the speed and force of water erosion, prevented the water cycle between the revetment plants and river water.
But the extensive use of concrete in lots of campus waterpront landscape make the distance between people and water become large, and the icy materials make people no longer willing to get close to the river and have to treat it as a transport.
The revetment should minimize the use of concrete masonry and other hard materials, and using natural materials on bottom protection and slope, the toe can be rubble, masonry and other bottom protection, built a certain slope of the embankment above the water, planting vegetation combined with the implementation of tree, shrub and grass aslant on the slope, and form ecological dike of revetment round after round, as Figure 3 shows.
Natural Science Journal of Hainan University.
China Science and Technology Information. 2013(6), p. 35