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All materials were used without any further purification.
Tuan, F.K .Ko, Electrospun nanofibrous structure: A novel scaffold for tissue engineering, Journal of Biomedical Materials Research. 60 (2002) 613-621
Advanced Materials. 22 (2010) 754
Liu, Electrospun nanoporous materials: reality, potential and challenges, Materials Science and Technology. 26(2010) 1304-1308
Chen, Superhydrophobic surface directly created by electrospinning based on hydrophilic material, Journal of Materials Science. 41 (2006) 3793-3797

Adhesive compositions are used as a binder in many composite materials.
It is known, that residual stresses can significantly weaken the strength of composite materials.
Wang, The Elastohydrodynamic Lubrication Analysis of Composite Material Gear, Advanced Materials Research, 706-708 (2013) 1622–1626
Alexis, Fracture studies of an adhesive joint involving composition alteration, Journal of Chemical and Pharmaceutical Sciences, 2015-April (2015), 269–273
Xiao, Elastic-plastic stress investigation for an arc-shaped interface crack in composite material, International Journal of Mechanical Sciences, 83 (2014) 104–111.

High Performance Materials by Laser Deposition Joseph W.
Bishop Ave., Missouri University of Science and Technology, Rolla, MO, U.S.A: 65409- 0330 2292B Toomey Hall, 400 W. 13th St., Missouri University of Science & Technology, Rolla, MO 65409-0050 ajnewkirk@mst.edu, bliou@mst.edu Keywords: Advanced materials, Rapid solidification, Additive manufacturing, Laser deposition.
Hofmann, Journal of Materials, vol. 2013, Article ID 517904, 2013
Chinese Journal of lasers 2005,32(4):567-570
Bhaduri, Progress in Materials Science, Vol 57 Part 5, pp. 911-946, 2012

Effects of Modified-phenolic on the Tribological Properties of Carbon Fiber Reinforced Phenolic Friction Materials Wen-bin Li1,a, Jian-feng Huang1,b, Jie Fei1,c, Wen-jing Wang1,d and Li-yun Cao1,e 1School of materials science & engineering, Shaanxi University of Science & Technology, Xi’an Shaanxi 710021, P.R.
Methods and Materials Materials.
Lu: Journal of Functional Materials, (2007) No.12, p.2044.
Wang: Journal of Functional Materials, (2009) No.3, p.353.
Zhang: Journal of Inorganic Materials, (2010) No.4, p.344

Besides of the above mentioned studies, porous materials and structures, such as honeycombs and foams arouse the interest of researchers, because of the long-plateau range and controllable plateau stress.
The plateau phase, is the dominant characteristic of crushing in porous materials, and corresponds to permanent deformation via the plastic buckling， this deformation process is restorable if the material is linear elasticity.
International Journal of Mechanical Sciences, 55 (2012) 22-29
Journal of Fluid Mechanics, 253 (1993) 245 - 265
International Journal of Mechanical Sciences, 39 (1997) 69-86

Introduction In recent years, with the ceramic materials being extensively used, the study on their friction and wear properties has become one of the important research topics in the interdisciplinary fields of materials science and tribology.
It suggests that the materials are ideal die materials.
[6] Jun Qu, Weihao Xiong, Dameng Ye, et al: International Journal of Refractory Metals & Hard Materials Vol. 28(2010), p.243
[7] Shiquan Zhou, Wei Zhao, Weihao Xiong: International Journal of Refractory Metals & Hard Materials Vol. 27(2009), p. 26
[9] Guo Zhixing, Xiong Ji, Yang Mei, et al: International Journal of Refractory Metals & Hard Materials Vol. 27(2009), p. 781

The following paper indicates variants of new materials obtained with various organic alloy elements.
In extreme temperatures, the resistance to traction, elongation and tear can be much higher than for conventional rubber, though still low in comparison to other materials.
Likewise, liquid silicone rubber, i.e. a highly pure silica silicone, has been used for manufacturing the new materials.
Popescu, Research Contract-Technologies to recover and use the rubber materials in composite insulators with external insulation.
(Eds.), (2009), Handbook of Sealant Technology, CRC Press, p. 328-332, ISBN 9781420008630 [13] Brydson, John (1999), Plastics Materials, Butterworth, 9th Ed [14] Lewis, PR, Reynolds, K. and Gagg, C (2004), Forensic Materials Engineering: Case Studies, CRC Press [15] "Characteristic Properties of Silicone Rubber Compounds" by Shin-Etsu Co

The findings bridge the gap between material science and mechanical engineering, providing a foundation for designing orthopaedic joint replacement materials with improved durability and longevity. 4.
Sáenz de Viteri et al., “Development of Ti-C-N coatings with improved tribological behaviour and antibacterial properties,” Journal of Mechanical Behaviour of Biomedical materials 55 (2015) 75-86. doi: 10.1016/j.jmbbm.2015.10.020
Niinomi, “Mechanical properties of biomedical titanium alloys,” Materials Science and Engineering A243 (1998) 231–236
Liu, “The Tribological Behaviours of Three Films Coated on Biomedical Titanium Alloy by Chemical Vapor Deposition,” Journal of Materials Engineering and Performance 24(2015) 4462–4474. doi: 10.1007/s11665-015-1732-6
Al-Aqeeli, “Surface Modification of Metallic Biomaterials for Better Tribological Properties: A Review,” Arabian Journal for Science and Engineering Springer Verlag,42(2017) 4493–4512. doi: 10.1007/s13369-017-2624-x

How to Appreciate the Beauty of Wood as Building Materials Jiayi Zhu1, a, Huixin Tai2,b 1Zhejiang University of Technology, Hangzhou (postal code 310014), China 2Zhejiang University of Technology, Hangzhou (postal code 310014), China ajiayizhut@hotmail.com, bterryhx@zjut.edu.cn Keywords: wood, beauty of material, building materials Abstract: This paper determines some methods through which we appreciate the beauty of wood as building materials.
In current society when cities are full of various industrial materials, more and more people are yearning wood.
Because of it, we need to review current aesthetics conception of wood and increase new aesthetic values of wood as building materials.
But it doesn’t appreciate and demonstrate the beauty of wood as building materials in terms of philosophy, history and design approach.
References [1] Liping He: Huazhong Architecture Vol.5(2007), p.69 [2] Fuxing Xue: Journal of Sun Yat-Sen University (Social Science Edition) Vol.2(2009), p.145 [3] Gonglong Wang:Beauty and Times Vol.3(2005) , p.17 [4] Gaihua Chen: Journal of Huaibei Coal Normal College (Philosophy and Social Science Edition) Vol.12(2006), p.141 [5] Xin Liu: Beauty and Times Vol.4 (2010), p.41 [6] Guxi Pan: Chinese Architectural History (China Architecture and Building Press Publications, China 2009)

Promoting Scientific Research in Materials Professional with Material Properties and Production for Strengthening the Graduation Design Dong Xianga, ZhiGang Wang b and KeGao Liu c School of Material Science and Engineering, Shandong Jianzhu University, Jinan 250101, China a xiang@sdjzu.edu.cn, b wangzhigang@sdjzu.edu.cn, c liukg163@163.com Keywords: Graduation design; Materials professional; Theory and practice; Scientific research with production; Material property Abstract.
In accordance with the requirements of materials science and engineering course, the undergraduate graduation design of the materials professional is implemented.
Combining with the discipline expertise of materials professional graduates of School of Material Science and Engineering in Shandong Jianzhu University, the methods of research with production are obtained to guide undergraduate graduation design.
Because these materials are mostly industry-specific materials which usually contact less and universal apply, it can cause the interests of students and inspire them thirst for knowledge strongly.
Li: Journal of Anhui Agricultural University (social science edition) Vol 16(2007), p.113 [2] Z.