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Often, multifunctional materials are also called all-purpose materials due to their versatile use.
Sasmal, Evaluation of mechanical characteristics of nano modified epoxy basedpolymers using molecular dynamics, Computational materials science, 96 (2015) 146-158
Aytekin, Modification of bitumen-based roof covering material by glass reinforced polyester recyclate, Journal of material cycles and waste management, 17 (2015) 583-589
Pilon, Thermal conductivity of cementitious composites containing microencapsulated phase change materials, International journal of heat and mass transfer, 104 (2017) 71-82
Balachandra, Polymer nanocomposites processed via self-assembly through introduction of nanoparticles, nanosheets, and nanofibers, Journal of materials science, 52 (4) (2017)

Study of Fractal Characteristics of Antimony Impregnated Graphite Seal Material Based on Matlab[J] Journal of China University of Mining & Technology, 2009,6:862-86
Materials for Mechanical Engineering,2006,30(6): 56-57
Engineering Journal of Wuhan University, 2008,12:41-45,50
Journal of South China University of Technology (Natural Science Edition), 2007, 35(2): 121–124
[J] Journal of the Chinese ceramic society, 2010,38(4):730-734.

The finite element model for interface crack of bi-material is set up, the friction phenomena of interface between two materials is simulated.
Due to the interface crack is easily produced in joint with different properties of two materials, so the bi-material-interfacial cracks are the one of the key research of fracture theory.
The finite element model for interface crack of bi-material is set up, the friction phenomena of interface between two materials is simulated[5].
Vol. 35 (2003), p. 85 [2] Ming Song, Youtang Li and Xingchun Wei: Journal of Science Technology and Engineering.
Vol. 20 (2008), p. 5544 [3] Xiaohong Liu: Journal of Taiyuan University of Science and Technology (2014) [4] A.R.

Liu: submitted to Journal of Advanced Materials Research. 239-242 (2011) 3310-3313
Lu: submitted to Journal of Advanced Materials Research. 250-253 (2011) 405-408
Chen: submitted to Journal of Key Engineering Materials. 629-630 (2015) 494-503
Othman: submitted to Journal of Applied Mechanics and Materials. 389 (2013) 36-39
Achal: submitted to Journal of Advanced Materials Research. 1090 (2015) 96-100

Phenol Degradation in the System of H2O2/Porous Tourmaline Composite Materials Can Lia, Yan Dingb*, Junping Meng and Lifang Zhao Institute of Power Source & Ecomaterials Science, Hebei University of Technology, Tianjin, 300130, China alicancl@126.com, bdingyan@hebut.edu.cn* Keywords: tourmaline, porous materials, composite materials, degradation Abstract.
Wang, et al.: Journal of Functional Materials.
Lu: Journal of the Chinese Ceramic Society.
Liu: Journal of Hazardous Materials.
Rodriguez, et al.: Journal of Hazardous Materials.

Journal of the European Ceramic Socitey, 27 (2007)831–836
Materials Review. 2003,(12):63-65.
Composite material science,1987,13(8):257-264
[24] Liu XJ,Li TS.Polymer.Materials Science And Engineering.2000,16(1):74-76
[27] Deng JX, Zhang H, Wu Z, Liu AH.International Journal of Refractory Metals and Hard Materials,2011

Experimental Experimental materials.
Table 1 shows the performance indexs of the chromium-containing materials.
Experiment on Potash erosion resistance of chromium-containing materials.
, eventually resulting in internal loosening of the materials.
Duan, et al, Anti-alkali corrosion properties of different refractory raw materials, Journal of Wuhan University of Science and Technology. 37 (2014) 428-431

From the traditional rough test to support materials and materials used in all aspects of science and technology, modern, scientific program, at present, there are mutual dependencies between the progress of scientific knowledge and the development of test methods.
Acoustic emission analysis of the flexural and tensile properties of 3-D braided composite materials[J].Journal of Textile Research.2007,28(4):52-55
Feature of acoustic emission and failure analysis for three-dimensional braided composite material under compressive load[J].Journal of Textile Research.2006,27(2):20-24
Research on measure of composite material preform braiding angle [J].Journal of Textile Research.2004,25(3):42-44 [8] T.W.
Ko, Textile structural composites, Composite Materials Series, Elsevier Science Publishers B.V., Amsterdam, 1989

Watson: Journal of Nuclear Materials Vol. 258-263 (1998), p. 329
Elio: Journal of Nuclear Materials Vol. 258-263 (1998), p. 74
Slattery: Journal of Nuclear Materials Vol. 258-263 (1998), p. 308
Vieider: Journal of Nuclear Materials Vol. 258-263 (1998), p. 160
Zhang: Journal of Materials Science Vol. 40 (2005), p. 2105

The Effect of Explosive Material on the Formation of Explosively Formed Penetrator Qinshu Miao1,2, a, Xiaoming Wang1,b, Wenbin Li1,c, Weibing Li1, d, Yu Zheng1,e 1ZNDY of Ministerial Key Laboratory Nanjing University of Science and Technology, Nanjing 210094, China 2 Unit 63961 of PLA, Beijing 100012, China amqslxf@163.com, bwangxm@mail.njust.edu.cn, cacnet@mail.njust.edu.cn, dnjustlwb@163.com, ezhengyu9989@yahoo.com.cn Key words: Explosive Material; Explosively Formed Penetrator(EFP); Material Character; Numerical Simulation Abstract: In order to research the effect of explosive material on the formation of EFP, this paper studies the effect of five different explosive materials, PETN, SEP, TNT, PE4BOOSTER and 8701, on forming EFP, using ANSYS/LS-DYNA simulation software.
Five explosive materials form typical explosively formed penetrator, from PETN to 8701, the length of penetrator head long rod gradually become longer apparently, velocity and length to diameter ratio are increased. 
The EFP formed influence factors are density, detonation velocity, detonation pressure, explosion heat of explosive materials, the following are the analysis of each EFP formed influence factor of different explosive materials, the influence law of EFP formed that depend on explosives material parameters which obtain explosive density, detonation velocity and detonation pressure is researched.
From the analysis that the EFP formed influence on detonation pressure of different explosive materials, the fitting curve that EFP velocity and length to diameter ratio with detonation pressure is obtained.
References [1] Jiang Houman, Zhang Ruoqi, Zhang Shouqi: Journal of Ballistics Vol. 10(1998), p. 25-28 [2] Wu Jun, Liu Jingbo, Du Yixin: International Journal of Impact Engineering Vol. 34(2007), p. 1147-1162 [3] Li Weibing, Wang Xiaoming, Li Wenbin: International Journal of Impact Engineering Vol. 37(2010), p. 414-424 [4] Song Meili, Wang Xiaoming, Li Wenbin, Zheng Yu: INITL T0RS&PYROTECHNICS (2009), p. 16-19 [5] Li Weibing, Wang Xiaoming, Li Wenbin: Journal of Ballistics Vol. 21(2009), p. 19-23 [6] Lin Jiajian: University Of Science And Tecnology Of China (2009)