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Sports shoes materials can be divided into the upper and sole materials。
Most upper materials are chemical fiber materials, leather or synthetic leather；Besides the application of rubber in large range, sole materials conclude one foam material, two foaming materials and various types of TPU materials；Most of these materials are derived from the oil and other non-renewable resources, and they are very difficult to degrade .Green sports shoes design should minimize the use of non-renewable resources, and choose renewable resources instead[7].
With the development of science and technology, many new environment-friendly fabrics emerge in an endless stream, which provides a lot of new materials for shoe designer.
This design style is mainly reflected in the selection and application of materials, it pursuits of waste recycling or reusing, it mainly has 2 forms: (1) Take the waste materials as the main material for design consideration.
China Sport Science and Technology,2009,1:57-59

Alghamdi Mathematics Department, Faculty of Applied Science, Umm Al-Qura University, Makkah, KSA E-mail: najatalghamdi@gmail.com Keywords: Vibration; Nano-Beam; Thermal shock; Moving heat source; Euler–Bernoulli equation; Non-Fourier heat conduction.
The numerical solutions for the Silicon material have been done by using Tzou method.
Biot, Thermoelasticity and irreversible thermodynamics, Journal of applied physics, 27 (1956) 240-253
Youssef, Vibration of gold nano-beam with variable young’s modulus due to thermal shock, World Journal of Nano Science and Engineering, 5 (2015) 194
Hosseini, A semi analytical method for electro-thermo-mechanical nonlinear vibration analysis of nanobeam resting on the Winkler-Pasternak foundations with general elastic boundary conditions, Smart Materials and Structures, 25 (2016) 085005

Moreover, we should choose straight-textured air-seasoning material with no timber hitch and medulla.
Table.1.Technical scheme of route diagram Field sampling Site investigation Test analysis Reinforcement for structural materials ` Traditional architectural structure repair technology Alternative materials adaptability analysis Reinforcement of special functional materials Strengthening special auxiliary materials Huizhou traditional architectural structure repair and material for the replacement of key technology demonstration projects The maintenance and reinforcement of the Dun Mu Tang The present status of Dun Mu Tang.The Dun Mu Tang is in the XU Country, She Xian, Huang Shan City, Anhui Province.
And the material should be free of timber and medulla.
Summary Architecture is a comprehensive embodiment of history, culture, science, technology and production force.
Edited by Earthquake resistant engineering and , 2009, (02) [5]Jun He,in: The new complex of ancient building repair [J],edited by Zhejiang architecture, 2009, (07) [6]Junguo Dong,in:Analysis on traditional Chinese ancient wooden building structure anti-seismic conceptual design [J],edited by Heilongjiang communication science and technology , 2011, (04) [7]Yanying Sun,in:Villa repair of ancient architecture engineering thoughts [J],edited by Journal of Chengde Nationalities Teachers College , 2007, (03) [8]Hongtie Zhao,Zibo Xue,Jianyang Xue,Ronglan Cao and Lei Wu,in:Ancient wood structural strengthening experimental study [J].

Principle of structural damage Damage is due to the role of the external load and the environment led to micro-structural defects (such as micro-cracks, micro voids, etc.) caused by the degradation process of materials or structures.
Strain mode in damage identification Through the mechanics of materials can know: the structure of the strain is the structure of the first derivative of displacement.
Journal of strain Analysis, 1979, Vol.14, No.2 [2] Allemany R J ,Brown D L.
Journal of Jinan University (Natural Science) 2008,29(5)
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Mechanics of materials says that the maximum bending moment Mmax is PL1L2/L0 and further is PL0/4 if L1=L2.
Actually the Young's Modulus and yield strength can be obtained by material characteristic testing or specific what materials were in hand sometimes.
[2] Chie Ando, Toshimasa Suzuki, Youichi Mizuno, Hiroshi Kishi, Sayuri Nakayama, Mamoru Senna, in: Evaluation of additive effects and homogeneity of the starting mixture on the nuclei-growth processes of barium titanate via a solid state route, 43:6182–6192 of Journal of Material Science (2008)
TSURUMI, in: Preparation of nm-sized BaTiO3 particles using a new 2-step thermal decomposition of barium titanyl oxalate, 38 (2003) 2655 – 2660 of Journal of Materials Science (2003)
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Choi, Fabrication of dye-sensitized solar cells by transplanting highly ordered TiO2 nanotube arrays, Solar Energy Materials & Solar Cells. 95 (2011) 184-189
Chen, Effect of Anodization Parameters on Morphology and Photocatalysis Properties of TiO2 nanotube arrays, Journal of Materials Science & Technology. 31 (2015) 1059-1064
Tipparach, Photocatalytic Performance of Fe-doped TiO2 Nanotubes in DSSCs, Journal of Materials and Applied Energy. 3 (2014) 5-8
Mahmood, Double-layer TiO2 nanotube arrays by two-step anodization: Used in back and front-side illuminated dye-sensitized solar cells, Materials Science in Semiconductor Processing. 39 (2015) 255-264
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Experimental Materials.
Jeong: Journal of Colloid and Interface Science Vol. 344 (2010), p. 584-587 [6] M.D.
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Characterization of TiO2 composite film on steel obtained in aluminate electrolyte by PEO and the photocatalytic activities Yunlong Wang1,*, Miao Wang1,2, Yuemei Qin3, Xingfeng Shi1, Huirong Guo1, Zijuan He1 1Center for photon Manufacturing Science and Technology, School of Materials Science and Engineering, Jiangsu University, Zhenjiang, 212013,China 2Research institution of advance materials, School of Materials Science and Engineering, Jiangsu University, Zhenjiang, 212013,China 3Department of electronic and electrical engineering, Jiandong Polytechnic College, Changzhou,213022, China Corresponding author, Tel/fax: 86-511-88790191, E-mail: Wangyunlonghit@yahoo.com.cn Keywords: TiO2 composite film, photocatalytic, plasma electrolytic oxidation, aluminate electrolyte, steel Abstract.
Materials and methods Film preparation and structure characterization Q235 carbon steel sample with a bare area of 10mm×20mm was first washed with acetone and distilled water and served as anode in PEO.
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Rare Metal Materials and Engineering.(2009),38(8)1317-1320 [5] A.L.Lu, Q.Y.Shi, H.Y.Zhao.
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Introduction In recent years, the sandwich plate regarded as the most promising new type of lightweight and multi-functional materials, become a hot topic for many researchers[1].
Liu systematically analyzed elastic wave propagation characteristics of lattice material and got band gaps of lattice material by finite element method, but had no conclusion when the lattice material is sandwiched in two plates.
Band structure is obtained in Fig.7 using the same geometry parameters and material parameters as that in Fig.2(a).
Acknowledgements The authors are grateful to the support of the China National Science Foundation under Grant No.51178037 References [1] Yazheng Yang, Gialing Yang, Tao Zeng, Daining Fang, The research progress on lightweight porous material[J],CHINESE QUARTERLY OF MECHANICS,2007,28(4):503-516(In Chinese) [2] J.C.Wallach, L.J.Gibson, Mechanical behaviour of a three-dimensional truss material[J], International Journal of Solids and Structures, 2001,38:7181-7196 [3] V.S.Deshpanda, N.A.Fleck, M.F.Ashby, Effective properties of the octet-truss lattice material[J],Journal of the Mechanics and physics of Solids,2001,49:1747-1769 [4] Zhengyu Xue, John W.Hutchinson, Preliminary assessment of sandwich plates subject to blast loads[J],International Journal of Mechanical Sciences,2003,45:685-705 [5] F.X.Xin,T.J.Lu, Analytical modeling of wave propagation in orthogonally rib-stiffened sandwich structures: Sound radiation[J], Computers & Structures,2011,89(5-6): 507-516 [6] F.X.Xin, T.J.Lu
, Analytical modeling of fluid loaded orthogonally rib-stiffened sandwich structures:Sound transmission[J],Journal of the Mechanics and Physics of Solids 2010,58(9): 1374-1396 [7] Shutian Liu, Yu Huang, the band gaps’ characteristics and design of two-dimensional lattice material[J], Chinese Journal of Theoretical and Applied Mechanics,2001,43(2):316-329 (In Chinese)