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References [1] BU Quan-min ,Li Feng-ying ，Study on the Ecological Restoration Technology of River Pollution，Journal of Anhui Agricultural Sciences[J], 2008,36(36):16084-16086
[3] LOU Min,LIAO Bo-Han,LIU Hong-Yu,ZOU Ya-Zhu，Study of three aquatic floating plants to treat the water eutrophication，Chinese Journal of Eco-Agriculture[J]，2005（3）：32-34
[4] WAN Jin-bao,HOU De-yin， Purification of Polluted Urban River by Bioremidation or Ecorestoration Technology， Jiangxi Science[J]，2006（1）：76-78
[6]ZHANG Lei, LI Hong-xia, MA Wei-fang, ZHAO Xin-hua ，Phytoremediation of Complex Contaminations in Dredged Sewage River Sediment by Lolium multiflorum Lam，Journal of Agro-Environment Science[J]，2006（2）：107-111
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Journal China Coal Society, 2007, 32(11): 1127-1131.
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Atmospheric Science Research and Application, 2007, 2(11):92−99
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Meanwhile, we find the facades in Fukuoka, cloth, plants, wood and other natural materials are used more.
In the investigation of the materials used in facades, C1 uses more tile and resin; stone, wood, tile, etc. are widely used in C2; C3 prefers tile and wood; C4 metal; C7 decorates with red brick and wood.
In addition, cloth, plants and wood and other natural materials is more used.
From the personality of different industry, facades in Fukuoka City emphasis on regional and historical, in addition to the traditional architectural elements, cloth, plants, wood and other natural materials are used widely.
[3] SATO Atsushi, ARIMA Takafumi, Distinctive Characteristics of Store-front Appearance and Appeal of Local Shopping Street, Journal of Architecture and Planning , Japan(582),pp 87-93, 2004-08-30

The conference book is published by Trans Tech Publication in Journal Applied Mechanics and Materials, and the addressed issues are: Modeling and simulation in mechanical engineering; Applied mechanics, mechatronic systems and robots; Automotive engineering; Mechanical engineering for biomedical applications; Materials and fabrication systems.
Daniela Tarnita University of Craiova, Faculty of Mechanics COMMITTEES Chairman:  Daniela Tarniță Vice Chairman:  Nicolae Dumitru  Adrian Roșca Editor  Daniela Tarniță Honorific Committee  Pandrea Nicolae - member of Romanian Academy of Technical Sciences  Bratu Polidor - member of Romanian Academy of Technical Sciences  Popescu Iulian - member of Romanian Academy of Technical Sciences  Dan Claudiu Dănișor - University of Craiova, Romania  Mircea Ivănescu - University of Craiova, Romania  Marco Ceccarelli - University of Cassino, Italy  Ion Vișa - Transilvania University of Brasov, Romania  Ernst von Lavante - University Duisburg-Essen, Germany  Peter Kuchard - University Konstanz, Germany  Jan Gijsen - President of Ford Romania  Constantin Stroe - President ACAROM  Constantin Popeci - President POPECI GROUP Scientific Committee  Alecu Aurel - Politehnica University of Bucharest, Romania  Alexandru

This research could be useful for the understanding of nature of the giant magnetoresistance of granular magnetic materials.
The direct exchange interaction cannot be implemented in such materials due to the strong localization of the 4f-shell electrons, which leads to a small overlapping of wave functions.
Acknowledgements This work was supported by Ministry of education and science of Russian Federation within the contract 2.8649.2013 References [1] S.
Afremov, Journal of Physics: Conference Series 410, (2013) 012017 [7] R.
Efros, Physics and Geometry of disorder, (Science, Moscov, 1982), 176 [13] D.

Dynamic characteristic analysis of the 3D spring model of column with triangular section Meng-Yan Song1, a , Ge Tian1, a, Ming-Wu Yuan2, b , Li-Na Ge1, a , Jing-Jing Song1, a ,*Xiang-Rong Fu1, a 1Department of civil Engineering, China Agricultural University, Beijing, 100083 China 2 Department of mechanics and Engineering Science ,Peking University, Beijing,100871 China axrksmy@163.com, b yuanmw@pku.edu.cn Keywords: dynamic characteristic analysis, spring model, triangular section Abstract.
Acknowledgements Project supported by the National Natural Science Foundation of China (Nos. 11272340 ), the National Basic Research Programs of China (Nos. 2010CB731503) Corresponding author Xiang-Rong Fu, E-mail: fuxr@cau.edu.cn References [1] Long Yuqiu ,Bao Shihua,Kuang Wenqi,Yuan si, structure mechanics[M],Higher education 2012 [2] Zhang Chong, Jin Feng ,Hou Yanli, 3-D simple deformable distinct element method,Chinese journal of geotechnical engineering , , 2007,29 (2) ：159-163
Key Engineering Materials, 385-387, 617–620 (2008) [5] Fu, X.
Shape-free finite element method: the plane hybrid stress-function (HS-F) element method for anisotropic materials.
Science China Physics, Mechanics & Astronomy, 54(4), 653–665 (2011) [9] Cen, S., Zhou, M.

A Study of Influence of Shape Technique on Radar-Scattering Characteristic for Tank Turret Yao Ma, Weidong Xu, Fangmo Shi, Jun Liu, Feng Lu, Liyan Zhu College of Field Battle Engineering, PLA University of Science and Technology No.1, Haifu Alley, NanJing, China mayao_84@aliyun.com Keywords: radar stealth technology, shape technique, radar-scattering characteristic, radar cross section (RCS), tank turret Abstract.
Based on the interactive mechanism between radar wave and substance, main factors determining the radar-scattering characteristic of the target include surface materials of the target, target shape and incident direction of radar wave, etc.
So far, absorbing materials and shape technique are two main ways to achieve radar stealth.
Ship Science and Technology, vol. 4 (2012), pp. 140-143
Journal of national defense science and technology, vol. 5 (2003), pp. 21-23

I) Types of Box Culverts 1) According to the Classification by Materials 1.1) Aluminum 1.2) Timber 1.3) Concrete 1.4) High-density Polyethylene 1.5) Plastic 1.6) Steel 2) According to the Classification by Shape 2.1) Box culvert 2.2) Bridge culvert 2.3) Pipe arch culvert 2.4) Pipe culvert 2.5) Arch culvert 3) According to the Classification by Loading 3.1) Type 2-CLASS-20 3.2) Type 3-CLASS-27 3.2) Type (2-S1)-CLASS-33 3.2) Type (2-2)-CLASS-46 3.2) Type (3-S2)-CLASS-47 Cases to Be Solved & Parameters Used For this work, a total of ten cases are taken for analysis.
M., (2008), Optimum safe hydraulic design of culverts, Journal of Engineering and Development, Vol.12, Issue-1, p.p.66-88. https://www.iasj.net/iasj?
Galatage (2016), " Analysis of box culvert under cushion loading ", International advanced research journal in science, engineering &technology, ISSN no.
Shreedhar (2013)," Design coefficients for single and two cell box culvert" International journal of civil & structural engineering, ISSN no.0976-4399, Vol.03, Issue-03, p.p. 475-494. www.ipublishing.co.in/ijcserarticles/...
Chauhan, Gunvant Solanki, Minu Tressa (2017), " Analysis & design of box-type multi-barrel skew culvert " International journal of advanced engineering & research, ISSN no.

Machine Principles of Rapid Prototyping Modern forming/shaping science is the science that researches on orderly organizing the materials into a three-dimensional (3-D) part with determined shape and functions.
Therefore, rapid prototyping technology is a new technology, which is a combination of computer-aided design, precision machinery, CNC, laser technology and materials science, and essentially different from traditional manufacturing methods.
For example, SLA is used for forming material of liquid photosensitive resin, LOM is used for material of paper, FDM is used for fiber materials, and SLS is used for powder materials.
For example, with the support of the national 863 program, Institute of Automation, Chinese Academy of Sciences has achieved certain results in the study of rapid prototyping technology of nano-crystalline ceramic materials, metal materials, heterogeneous materials, and so on.
Khan, Optimization of rapid prototyping parameters for production of flexible ABS object, Journal of Materials Processing Technology, Vol. 169, p 54-61, 2009