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Researchers in materials science and civil engineering are constantly listening to the industry and continue to innovate in this field.
MATERIALS AND METHODS Fibers preparation In this study, we used animal fibers, especially turkey feathers.
Influence of volcanic originated natural materials as additives on the setting time and some mechanical properties of concrete, Construction and Building Materials 21 (2007)1274–1278
Ecole Inter-Etats des Sciences et Médecine Vétérinaires de DAKAR (2009)
Mechanical properties of high-strength fiber reinforced concrete, ACI Materials Journal 89 (5) (1992) 449–455.

In China, the demand of seeds of seedless watermelon grows at the rate of 25% per annum [2], so we need a large number of high-quality tetraploid materials.
Materials and methods 2.1.
Selection of New Watermelon Variety ‘Mimei Tetraploid’.Journal of Fruit Science, 10:87-91(1993)
Journal of Hunan Agricultural University (Natural Sciences), 35:640-643(2009)
Journal of Fruit Science, 25:760-763(2008).

Todd: Materials Science Forum, Vol 511-551, (2007),p.357-p.364
Nakayama : Materials Science Forum, Vols. 426-432,(2003),p.617-p.622
Haga: Journal of Materials Processing Technology, Vols.155-156, (2004), p.1662-p.667
Koga: Materials Science Forum, Vols. 475-479, (2005),p.489-p.492
Koga :Materials Science Forum, Vols. 475-479, (2005),p.489-p.492

Diffusion and mechanical stresses in a material with two-component coating at external heating Chepak-Gizbrekht Marija V.1, a, Knyazeva Anna G.1,2,b 1Tomsk Polytechnic University, 30, Lenina ave., Tomsk, 634050, Russia 2Institute of Strength Physics and Materials Science of Siberian Branch Russian Academy of Sciences, 2/4, pr.
Multilayer materials and materials with coatings are widely used in various applications.
In such occurrences are among thermal diffusion (Soret effect) in solid materials.
Pettit, Mechanisms controlling the durability of thermal barrier coatings, Progress in Materials Science.
Gusev, Tungsten Carbides: Structure, Properties and Application in Hardmetals, Springer Series in Materials Science, 2013, Volume 184.

Model of calculation On the basis of the past experience and the practical conditions, some hypothesis are established for the FEM model as follow: (1) the stress-strain relationships is satisfied to the basic hypothesis of plain strain problem; (2) the anchor bolt and lining are belong to elastic materials, but the rock mass and soften joints are considered as elastic-plastic medium; (3) the normal of the isotropic surface is orthogonal to the axis of underground opening.
The deformation modulus of interfaceequals to 500kpa, equals to 400kpa andequals to 50000kpa, other material parameters are shown in Tab.1.
Acknowledgment This work is supported by Guangdong Natural Science Fund Committee under grant 0629445, Foshan Science Technology Developing Fund Committee under grant 200606005 and Science Technology Developing Fund of Foshan University.
Alfi: Engineering Geology Vol.101(2008), P.174 [2]Zuo yujun, Tang chunan, Zhu wancheng: Journal of Central South University of Technology Vol.15 (2008), p.632 [3]R.
Chinese Journal of Geotechnical Engineering Vol.3 (1999), p.307 (in Chinese) [5]Yu xuefu, Zhen yingren, in:The stability analysis for the surrounding rock mass of the underground project,. edited by the press of coal industry, Beijing, China (1986) (in Chinese) [6] Sun jun, Wang sijing: International Journal of Rock Mechanics and Mining Sciences, Vol.37(2000), p.447 [7]Yu. 

Ten supporting journals, including Journal of Inorganic and Organometallic Polymers and Materials (JIOPM; Springer), Monatshefte für Chemie - Chemical Monthly (CM; Springer) Journal of the Chinese Advanced Materials Society (JCAMS; Taylor Francis), Journal of Energetic Materials (JEM; Taylor & Francis), Journal of Nano Research (JNanoR; Trans Tech), Polymers & Polymer Composites (PPC; Smithers Rapra), Current Organic Chemistry (COC; Bentham Science), Key Engineering Materials (KEM; Trans Tech), The Open Electrochemistry Journal (TOEJ; Bentham Science), and American Journal of Environmental Science (AJES; Science publications), have included ca. 700 full manuscripts contributed and 315 abstracts.
H Fujii (National Institute for Materials Science, Japan) Dr.
Kumakura (National Institute for Materials Science, Japan) Dr.
K Togano (National Institute for Materials Science, Japan) Dr.
Korea) Sponsors Jiangsu University University of Jinan State Key Laboratory of Bioreactor Engineering (East China University of Science and Technology) Hengyang Normal University Journal of Inorganic and Organometallic Polymers and Materials (JIOPM; Springer), Monatshefte für Chemie - Chemical Monthly (CM; Springer) Journal of the Chinese Advanced Materials Society (JCAMS; Taylor Francis) Journal of Energetic Materials (JEM; Taylor & Francis) Journal of Nano Research (JNanoR; Trans Tech) Polymers & Polymer Composites (PPC; Smithers Rapra) Current Organic Chemistry (COC; Bentham Science) Key Engineering Materials (KEM; Trans Tech) The Open Electrochemistry Journal (TOEJ; Bentham Science) American Journal of Environmental Science (AJES; Science publications).

The corresponding properties for such materials are presented in Tables 1 and 2.
Table 1 – Properties of selected materials.
International Journal of Mechanical Sciences, 1997. 39(7): p. 761-769
International Journal of Mechanical Sciences, 1979. 21(8): p. 457-465
Science Technology, Doct.

As shown from Fig. 4 and Fig. 5, improving the strength grade of structural elements materials can achieve the goal of increasing the bearing capacity of them.
Compared with that under room temperature, the strength reduction of the materials affected by high temperature has already reduced the bearing capacity.
As a result, in the process of construction and materials selection, importance should be attached to choosing over tensioning or low relaxation cables.
[2] Y.Du and Y.Z.Lu: Journal of Disaster Prevention and Mitigation Engineering, Nanjing, Vol.32 (2012) No.5, pp.72-76, in Chinese
[6] X.J.Ren: Journal of Anhui Institute of Architecture & Industry (Natural Science), Vol.15 (2007) No. 6, pp.16-18, in Chinese

Australian Journal of Basic and Applied Sciences 2013; 7: 182-186
Journal of Materials Processing Technology 2007; 190: 243-250
Progress in Materials Science 1990; 34: 261-366
Materials Processing and Manufacturing Science 2006; 167-245
Materials Science and Engineering 1980; 44: 1-66

Bandyopadhyay: Journal of Materials Processing Technology.
Fathima: Journal of Electronics Materials: Vol.31 (2002), pp.1039-1046
Li: Journal of Materials Processing Technology, Vol. 185 (2007), pp.2-16
Li: Journal of Materials Processing Technology, Vol.105 (2000), pp.284-293
Shi: Journal of Materials Processing Technology, Vol.129 (2002), pp.41-44