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Acknowledgments The authors would like to acknowledge the National Nature Science Foundation of China (No. 51008132, No.51038004) and The Ministry of Transport of the People's Republic of China for financial support (No. 200831800099) and the Pavement Research Center of University of California at Berkeley for technical support.
Monismith: Transportation Research Record: Journal of the Transportation Research Board Vol. 1417 (1993), p. 38 [2] Button, J.
Burati: Transportation Research Record: Journal of the Transportation Research Board Vol. 1228 (1989), p. 80 [4] Yue, Z.
Morin: Transportation Research Record: Journal of the Transportation Research Board Vol. 1492 (1995), p. 53 [5] Masad E., Muhunthan B., Shashidhar N., Harman T.: Journal of Computing in Civil Engineering Vol.13 (1999), pp. 88 [6] Masad E., Muhunthan B., Shashidhar N., Harman T.: Transportation Research Record: Journal of the Transportation Research Board Vol. 1681 (1999), p. 179 [7] Masad E., Jandhyala V.K., Dasgupta N., Somadevan N., Sashidhar N.: Journal of Materials in Civil Engineering Vol.14, (2002), pp.122 [8] Masad E., Button J. : Transportation Research Record: Journal of the Transportation Research Board Vol. 1891 (2004), p. 212 [9] Saadeh S., Tashman L., Masad E., Mogawer W.: Journal of Testing and EvaluationVol.30 (2002), p. 483 [10] Tashman L., Masad E., Peterson B., Saleh H.: Journal of the Association of Asphalt Paving Technologists Vol.70 (2001), p. 605 [11] Tashman L., Masad E., Angelo J.
D., Bukowski J., Harman T.: International Journal of Pavement Engineering Vol.3 (2002), p. 19 [12] Wang L.B., Paul H.S., Harman T., Angelo J.D.: Journal of the Association of Asphalt Paving Technologists Vol.73 (2004), p. 467 [13] Wang L.B., Frost J.D., Lai J.S.: Journal of Computing in Civil Engineering Vol.18 (2004), p.28

Materials and Methods 2.1 Materials Hyaluronan powders (sodium salt, molecular weight: 2.1 MDa) were purchased from Genzemy Co.
Stark, Journal of Aerosol Science vol. 38, pp. 315-324, (2007)
Schmid, Advanced Materials, vol. 17, pp. 2911-2933, (2005)
Tadros, Journal of Colloid and Interface Science, vol. 117, pp. 205-221, (1987)
Fernandez-Feria, Journal of Aerosol Science, vol. 27, pp.

Dispersion Behavior of Silicon Carbide Whisker Zhang Lilia, Chen Yuhongb, Qi Liminc School of Materials Science and Engineering, Beifang University of Nationalities, Ningxia, Yinchuan 750021, P.R.
Now Ningxia Jin Jing Science and Technology Development Co., Ltd developed a new process of SiC particle by silicon vapor-phase reaction.
Experimental The SiCw is from Jin Jing Science and Technology Development Co., Ltd, Ningxia.
References [1] WANG Qiuhong, ZHENG Yong, SUN Fan, et al.Preparation of SiC Wishker and Application in Reinforce of Composite Materials,J.Cemented Carbide.
BINNER.Characterization of silicon carbide and silicon powders by XPS and zeta potential measurement,Journal Of Materials Science Letters.20(2001)123– 126 [7] Jing Sun, Lian Gao.Dispersing SiC powder and improving its rheological behaviour,Journal of the European Ceramic Society.21 (2001) 2447–2451 [8] LI Hongzhen,FANG Guizhen,LI Junye,et al.Synthesis of PEI/MCC and Its Adsorption Character for Uric Acid.Polymer Materials Science And Engineering.

The “cross-shape” FMF used in this paper is soft magnetic materials.
Soft magnetic materials have found the most use in magnetic microsensors, microactuators, and microsystems[12].
Matovic: Journal of Mechanical Engineering Science Vol. 220(2006), p. 1645-1654
Alvarez et al.: Proceeding of the Institution of Mechanical Engineers, Part C: Journal of Micromechical Engineering Science Vol.10(2000), 204-208
Lin et al.: Journal of Semiconductors Vol. 31(2010)

Paper is the main print material, whose performance is a factor that effects the printing’s dot gain which is bad to image clarity and color reproduction.
As an important printing material, paper’s performance is one of the factors that affect dot gain.
References [1] Clapper F R, Yule J A C: submitted to Journal of Opt Soc Am (1953)
[2] Rogers G L: submitted to Journal of Image Sci Tech (1997)
[4] Shiraiwa Y，Mizunot: submitted to Journal of Image Sci Tech (1993)

Doty: Precipitation-Hardening in cast Al-Si-Cu-Mg alloys, Journal of Materials Science, Vol. 45 (2010), pp. 641-651 [2] H.R.
Lele: A model for two-step ageing, Bulletin of Material Science, Vol. 23, No. 5, October 2000, pp. 405-411 [4] F.H.
Liu: Effect of magnesium content on the ageing behaviour of water-chilled Al-Si-Cu-Mg-Fe-Mn (380) alloy castings, Journal of Materials Science, 15 May 1995, Volume 39, Issue 10, pp. 2531-2540 [5] E.
Seifenddine: The heat treatment of Al-Si-Cu-Mg casting alloys, Journal of Materials Processing Technology, Vol. 210 (2010), pp. 1249-1259 [6] G.
Nageswara Rao: Analysis of strain hardening behaviour of cast aluminium alloy 354 subjected to artificial ageing at various temperatures, Advanced Materials Research Journal, Vol. 856 (2014), pp. 231-235 [9] P.A.

Introduction The applications of epoxy-based materials are widespread and are found in coatings, composite materials, electrical systems and electronics, marine application, aerospace industries and adhesives.
“High strain rate compressive behavior of epoxy LY 556: Radial constraint effect”, Materials Science and Engineering A 538, 210– 218
Jeelani. (2005), “Effect of density, microstructure, and strain rate on compression behaviour of polymeric foams”, Materials Science and Engineering A 406, 328–336
KODY. (1998), “A generalized model for the yield behavior of epoxy networks in multiaxial stress states”, Journal of Polymer Science Part B: Polymer Physics, Volume 35, Issue 10, pages 1611–1619
Boeman. (2004), “Strain rate effects on the mechanical properties of polymer composite materials”, Journal of Applied Polymer Science, Volume 94, Issue 1, pages 296–301, 15 September 2004

Compression strength as well as compressive behaviour of both materials are compared and observed.
Therefore, it can be appointed as a benchmark material in proposing and designing new core materials for sandwich structure.
The results show that constraining the blocks increased the strength of both core materials.
Li: Journal of University of Science and Technology Beijing, Mineral, Metallurgy, Material Vol. 15 (3) (2008), p. 255 [8] B.K.
Sutcliffe: Journal of Manufacturing Science and Engineering ASME (2009) [15] L.J.

Materials.
The more HRR or pkHHR is, the more heat materials release during burning, the easier to burn the material.
China's patent：02821560.5，2005.2.9 [2] Libin Wang Jianqi: Submitted to Journal of Polymer Materials Science &Engineering (1998), in Chinese
[4] Lijun Li, Zhongyao Pu, Feng Li: submitted to Journal of Fire Science and Technology (2009), in Chinese
[5] Ying Zhang, Qianwei Tang, Aiping Chen: submitted to Journal of Fire Science and Technology (2009), in Chinese.

Shock Absorber using Hydraulic System and Shape Memory Alloys Ke ZHANG1, a, Zhiping TANG1,b 1Department of Modern Mechanics, University of Science and Technology of China, Hefei, Anhui, 230027, China.
Acknowledgments The authors gratefully acknowledge the financial support provided to this study by the Chinese national natural science foundation (11072240).
Gibson, A review of shape memory alloy research, applications and opportunities, Materials & Design, 2014, 56, 1078-1113 [2] Saadat, S. and Salichs, J. et al.
"An overview of vibration and seismic applications of NiTi shape memory alloy", Smart Materials & Structures, 2002, 11(2): 218-229 [3] G.
Tang, Experimental study of thin-walled TiNi tubes under radial quasi-static compression, Journal of Intelligent Material Systems and Structures, 2011, 22（18）, 2113-2126