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Simulation methods Material model.
Schomburg: Journal of Micromechanics and Microengineering, Vol. 14(2004) No.3, pp.1-14
Koelling: Polymer Engineering and Science, Vol. 41(2001) No.2, pp. 275-292
Koelling, Polymer Engineering and Science, Vol.42(2002) No.3, pp. 539-550
Yao, Polymer Engineering & Science, Vol.49(2009) No.10, pp. 1894-1901.

The oil adsorption materials swelling of high oil adsorption resins, toluene and xylene were small molecular weight and their molecular polarity were similar, so their oil retention were higher.
Polymer Materials Science & Engineering.
Polymer Materials Science & Engineering.
Journal of Functional Materials .
Polymer Materials Science & Engineering.

Achevements in Materials and Manufacturing Engineering, Vol.27, 2008, pp.131-134
Asano, Surface Responses of Magnetic Fluid Adsorbed to Permanent Magnet Subject to Vertical Vibration, Materials Science Forum, Vol.670, 2011, pp.215-220
Valenzuela, Synthesis and Study of a Magnetic Fluid, Materials Science Forum, Vol.302-303, 1999, pp.455-459
Kunitomo, A Coupled System of a Magnet and Magnetic Fluid in a U-Tube under Reciprocating Traveling Magnetic Field, Materials Science Forum, Vol.561-565, 2007 pp.2175-2178
Sawada, Characteristics of Hydrodynamic Pressure of a Magnetic Fluid in a Tuned Magnetic Fluid Damper, Materials Science Forum, Vol.670, 2011 pp.181-190

Effect of Hot-Dip Silicon-Aluminizing on the Anti-Carburization Behavior of High-Temperature-Resistant Steel HK40 Fei XIE 1, a , John Morral 2,b 1 Materials Science and Engineering Department, Jiangsu Polytechnic University, Changzhou, 213016, P.
REFERENCES [1] Grabke H J and Jakobi D: Materials and Corrosion Vol. 53 (2002), p. 494
Young: Journal of Materials Science Letters Vol. 12 (1993), p. 1076
Wolf: Materials Science and Engineering Vol. 87 (1987), p. 23
Knights: Materials Science and Engineering Vol. 88 (1987), p. 37

Design and Performance of an asphalt pavement snow melting system Mingyu Chen1, a, Shaopeng Wu2, b, Jizhe Zhang3, c, Pan Pan4, d 1 Key Laboratory of Silicate Materials Science and Engineering (Wuhan University of Technology), Ministry of Education, Wuhan 430070, China 2 Key Laboratory of Silicate Materials Science and Engineering (Wuhan University of Technology), Ministry of Education, Wuhan 430070, China 3 Key Laboratory of Silicate Materials Science and Engineering (Wuhan University of Technology), Ministry of Education, Wuhan 430070, China 4 Key Laboratory of Silicate Materials Science and Engineering (Wuhan University of Technology), Ministry of Education, Wuhan 430070, China achenmy@whut.edu.cn, bwusp@whut.edu.cn, czhangjizhe2001@whut.edu.cn, dpanpan8597@whut.edu.cn Keywords: Asphalt Pavement, Ice and Snow Melting, Laboratory Testing design, Snow Melting Performance Abstract: Asphalt pavement can be used in solar energy harnessing, by means of solar collector developed
Figure 1 Schematic diagram of the asphalt snow melting system Figure 2: The schematic of pipes and measuring point in tested slab Materials and gradation.
All the materials of the mixtures followed by the corresponding design code, while the air voids and other volumetric properties of the test specimens matched with the design requisition.
The future work of this study will be focused on accelerating the rate of snow melting through the development of high conductivity materials and the design of heat exchanger which can improve the heat transfer in the pavement.
Zhang: Laboratory Study on Solar Collector of Thermal Conductive Asphalt Concrete, International Journal of Pavement Research and Technology, Vol. 2 (2009), p. 130 [4] M.Y.

Introduction Aluminum conductor steel reinforced (ACSR) overhead lines are the main conductive materials of high voltage electrical transmission lines worldwide.
Among all the influencing factors, both the relative humidity of atmosphere and the content of corrosion materials critically contribute to transmission lines atmosphere corrosion, the higher the values are, the more severe the corrosion will be.
Johnson, et al: Corrosion, Vol. 43 (1987), p. 719 [2] Jiankun Zhang, Guohong Chen, Jiaqing Wang, et al: Corrosion and Protection, Vol. 31 (2010), p. 581 [3] Jiankun Zhang, Guohong Chen, Jiaqing Wang, et al: The Chinese Journal of Nonferrous Metals, Vol. 21 (2011), p. 411 [4] Xiuyu Liu, Shuai Miao, Chengwei Zhan, et al: Materials Protection, Vol. 43 (2010), p. 53
[5] Desheng Han, Di Li: Journal of Chinese Society for Corrosion and Protection, Vol. 27(2007), p. 134 [6] S.
Townsend: Corrosion Science, Vol. 41 (1999), p. 1687 [7] M.

In this paper, nano-TiO2 powder which was synthesized from local tin mining waste has been used as the starting material.
Luís, et al., "Influence of calcination parameters on the TiO2 photocatalytic properties," Materials Chemistry and Physics, vol. 125, pp. 20-25, 2011
Patil, et al., "Structural, electrical and optical properties of TiO2 doped WO3 thin films," Applied Surface Science, vol. 252, pp. 1643-1650, 2005
Melhem, et al., "Direct photocurrent generation from nitrogen doped TiO2 electrodes in solid-state dye-sensitized solar cells: Towards optically-active metal oxides for photovoltaic applications," Solar Energy Materials and Solar Cells
Hashim, "Sol-gel Synthesis of TiO2 Thin Films from In-house Nano-TiO2 Powder," presented at the Advances in Materials Physics and Chemistry Supplement: 2012 world Congress on Engineering and Technology, Beijing, China, 2012.

Tamaki: Development of solid-type diamond rotary dresser utilizing CVD diamond disc-application to low-speed dresser, Key Engineering Materials, Vol. 329 (2007), p.187
Ullah: Effect of wheel arrangement on ground surface topography in Horizontal-Axis-Type rotary surface grinding, Advanced Materials Research, Vol.126-128 (2010), p.579
Saadat: Analysis of the disc dressing effects on grinding performance—Part 1: Simulation of the disc dressed wheel surface, Machining Science and Technology, Vol.12 (2008), p.183
Furukawa: Dressing performance of prismatic monocrystaline diamond dresser, JSPE Journal, Vol. 60(6) (1994), p.803 (in Japanese)
Mindek: Virtual truing and dressing of grinding wheel, Key Engineering Materials, Vol. 389-390 (2009), p.362.

As early as the beginning of last century, it was discovered that strain rate has obvious effect on the concrete material [1].
In this paper, the rebar was considered as an elastoplastic material.
Materials and Structures 1991, 24:425-450 [3] Malvar LJ, Ross CA: Review of strain rate effects for concrete in tension [J].
ACI Materials Journal 1998, 95 (6): 735-739 [4] Comité Euro-International du Béton: CEB-FIP Model Code 1990 [S], Redwood Books, Trow-bridge, Wiltshire, UK, 1993 [5] Xu B.
Journal of Structural Engineering, 1987, vol. 113: 663–672.

Introduction Rural infrastructure is the material basis of people’s ordinary life in village.
Social Impact (S1): Human Development Index (S11), Engel's Coefficient (S12), Surplus Labor Transfer Rate (S13), Safety Benefit (S14), Improvement Rate of Farmers’ Quality in Science and Technology (S15) Farmers’ Annual Average Income (S16) Social Adaptation (S2): Co-Adaptability (S21), Social Risk Level (S22) (3)Environmental Impact (C) Environmental impact on projects is evaluated from three aspects as Ecological Impact (C1), Environment Protection Measures (C2) and Energy Saving & Emission Reduction (C3).
Environment Protection Measures (C2): Waste Gas Treatment Rate (C21), Waste Water Discharge Standards-reaching Rate (C22), Solid Waste Standards-reaching Rate (C23), Life Waste Harmless treatment rate (C24), Water Resources Reuse Rate (C25), Environmental Materials Utilization Rate (C26), Old Buildings and Materials Utilization Rate (C27).
Energy Saving & Emission Reduction (C3): Energy Consumption Rate (C31), Energy-Saving Equipments and Measures Utilization Rate (C32), Renewable Energy Utilization Rate (C33), Energy-Saving Materials Utilization Rate (C34), Pollutant Emission Reduce Amount (C36)
Bowen: Journal of Construction Management and Economics Vol.15(1997),p.223 [2] Lin Gan, Liyin Shen, Hongyua Fu: China Civil Engineering Journal Vol. 42(2009),p. 133(in Chinese) [3] Rui Li: Agricultural Technology Economic Vol.2(2003), p. 5 (in Chinese) [4] Shijie Jiang, Liyin Shen: Transactions of the CSAE Vol.26(2010), p. 1 (in Chinese) [5] Tongtong Wang: Proceedings of International Conference on Technology of Architecture and Structure (2010), p. 412 [6] Qiyue Cheng: Systems Engineering-Theory &Practice Vol.30(2010), p.1225 (in Chinese) [7] Ruijin Liao, Feilong Huang: High Voltage Engineering Vol.30(2010), p.1225 (in Chinese) [8] Tingrong Sun, Qiang Huang: Transactions of the CSAE Vol.22(2006) , p.70 (in Chinese)