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Experiment Experimental Materials.
Experimental materials conclude PVA fiber, cement, silica sand, superplasticizer, fly ash, silica fume and HPMC.
Journal of Building Materials, Vol.11 (2008), p.89 (in Chinese) [4] Victor C L, Wang S X, Wu C.Tensile Strain-hardening Behavior of Polyvinylalcohol Engineered Cementitious Composite (PVA-ECC).
ACI Materials Journal, Vol.98 (2001), p.483 [5] Victor C L, Wang S X, Ogawa A.
Journal of ACI Materials Journal, Vol.99 (2002), p. 463

All materials were used without any further purification.
Journal of Biomedical Materials Research Vol. 60(2002), p. 613
Advanced Materials Vol. 22(2010), p. 754
Materials Science and Technology Vol. 26(2010), p. 1304
Journal of Materials Science Vol. 41(2006), p. 3793

Introduction Fiber-reinforced polymers (FRP) provide an increased stiffness and strength-to-weight ratio compared to those of the conventional materials, e.g. metals.
Therefore, these materials are finding more and more important for modern industry, especially in the automotive, marine and aviation industries [1].
Komsky, Quantitative porosity characterization of composite materials by means of ultrasonic attenuation measurements.
[7] ASTM D 3171-99 Standard Test Method for Constituent Content of Composite Materials
Journal of materials science letters Vol. 10, (1991) 1162-1164

Sonochemistry Effects Influence on the Adjustments of Raw Materials and Finished Goods Properties in Food Production N.V.
Nowadays there are many ways to improve the quality of raw materials, to shorten the technological process and increase the persistence of bread and flour products.
As a result, the study of the physical nature of the factors used to intensification of biotechnological processes of raw materials is the most important.
Among the set of raw materials in special positions, there are water, natural colloidal structures and, of course, biological fluids.
Kuri, The pasting behavior and freeze- thaw stability of native starch and native starch-xanthan gum pastes, International Journal of Food Science and Technology. 39 (2004) 1017-1022

[7] C Lazau, P Sfirloaga, C Orha and et al: Materials Letters, Vol. 65 (2011) No.2, p.337
[10] P Kajitvichyanukul and P Amornchat: Science and Technology of Advanced Materials, Vol. 6 (2005) No.3-4, p.344
[12] G Korotcenkov: Materials Science and Engineering R, Vol. 61 (2008) No.1, p.1
[15] M.L.Zhang, T.Ning, S.Y.Zhang and et al: Materials Science in Semiconductor Processing, Vol. 17 (2014), p.149
[16] E Ayyildiz, CN LU and A TÜRÜT: Journal of electronic materials, Vol. 31 (2002) No.2, p.119.

Preparation and Thermophysical Properties of SiO2 Nanofluids YanFang Niu 1, a, WeiLlin Zhao1, b* , YuYing Gong 1, c 1School of Materials Science and Engineering, University of Jinan, Jinan 250022, China a15275315039@139.com, bmse_zhaowl@ujn.edu.cn, cgongyyjiayou@163.com Keywords: SiO2 nanofluids; Preparation; Thermophysical properties Abstract.
Ding: Powder Technology Vol. 239 (2013), p. 72-77 [5] Jie Li, Clement Kleinstreuer:International: Journal of Heat and Fluid Flow Vol. 29 (2008), p. 1221
[6] Baojie Zhu, Weilin Zhao, Dongdong Li and Jinkai Li: Advanced Materials Research Vol. 306-307 (2011), p. 1178-1181 [7] R.
Kim: International Journal of Heat and Mass Transfer Vol. 54 (2011), p. 433-438 [10] Weerapun Duangthongsuk, Somchai Wongwises: Experimental Thermal and Fluid Science Vol. 33 (2009), p. 706 [11] John Philip, P.D.
Shima: Advances in Colloid and Interface Science Vol. 183-184 (2012), p. 30-45.

Kiełbus, Microstructure of WE43 casting magnesium alloy, Journal of Achievements in Materials and Manufacturing Engineering 21 (2007) 31-34
Schumann, Research for a new age of magnesium in the automotive industry, Journal of Material Processing Technology 117 (2001) 276-281
[11] Fusheng Pan, Mingbo Yang, Jia Shen, Lu Wu, Effects of minor Zr and Sr on as-cast microstructure and mechanical properties of Mg–3Ce–1.2Mn–0.9Sc (wt.%) magnesium alloy, Materials Science and Engineering A 528 (2011) 4292–4299
Mediratta, Evaluation of mechanical properties of Al 7075-fly ash composite material, International Journal of Innovative Research in Science, Engineering and Technology 2 (2001)
Chen, En-Hou Han, Development of a high strength and high ductility magnesium alloy, Materials Science Forum 488-489 (2005) 265-268

Journal of Colloid and Interface Science, 2004. 275(1): p. 177-182
Science and Technology of Advanced Materials, 2009. 10(1): p. 013001
Science and Technology of Advanced Materials, 2010. 11(5)
Materials Research Bulletin, 2014. 49(0): p. 645-650
Materials Science in Semiconductor Processing, 2015. 36(0): p. 124-133

Luchao: Simulation on Triaxial Compression Creep Deformation of Reticulate Red Clay, Advanced Materials Research, Vols. 261-263, 1414-1418(2011) [6] X.
Zhongli: The Weathering Sequence of the Red Earth over Southern China, Journal of mountain science, 18(1): 7-12(2000)(in Chinese) [7] Z.
Jiancheng: On the Southern Vermicular Red Soil and Its Forming Environment, Journal of Jiaying university(natural science), 23(3): 79-83(2005)(in Chinese) [8] G.
Zejun: Research Advance of Red Earth in South China, Journal of east China normal university(natural science), 1: 69-75(2002) (in Chinese) [9] W.
Xiqing: Study on Shear Rate Effects of Reticulate Red Clay, Advanced Materials Research, Vols. 261-263, 1410-1413(2011)

Material model Materials model are composed of various parameters of barrels materials.
According to three-dimensional thermoelasticity coupling model of barrel, we can consider the temperature effects on thermal physical and mechanical properties of engineering materials and refer to engineerings manual.
Journal of Ballistics, 2006,12,Vol.18(4):16-20.
(In Chinese) [4] Engineering materials practical manual editing committee.
Engineering Materials Practical Handbook [M].