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Study on the Numerical Modeling of the SRHPC Frame Pi-ji Hou 1, a, Shan-suo Zheng 1, b, Lei Li1, c 1School of Civil Engineering, Xi’an University of Architecture and Technology, Xi’an, China azhengshansuo@263.net, bhoupiji@163.com, clilei1004@163.com Key Words: Steel Reinforced Concrete Frame; High Performance Concrete; Numerical Modeling; Bonding Stiffness; Hysteretic Loop Abstract: the modeling methodology is investigated for steel reinforced high performance concrete (SRHPC) in this paper.
[2] Zheng Shansuo, Li Lei, Wang Bin, Zeng Lei, Zhang Liang: Engineering Mechanics.
[3] Zheng Shansuo, Li Lei, Deng Guozhuan, Zeng Lei, Che Shunli: Engineering Mechanics.
[4] Zheng Shan-suo, Deng Guo-zhuan, Li Lei: Engineering Mechanics.

Study on Seismic Behavior of T-shaped Concrete-filled Steel Tube Compound Column under Different Axial Compression Ratios Yafeng Xu1,a, Jian Song1,b and Pengju Sun1,c 1 School of Civil Engineering, Shenyang Jianzhu University, Shengyang,110168, PR China aceyfxu@163.com, b641240537@qq.com, cgreampeng@126.com Keywords: T-shaped concrete-filled steel tube compound column, finite element analysis, axial compression ration, seismic behavior.
So the special-shaped concrete-filled steel tube compound column can meet the requirements on high and large-span of engineering, it can also meet the requirements of economy and applicable under conditions that the beams and columns cannot leak.
Acknowledgements The research financially supported by Scientific Research Project of Higher School Founded by Education Department of Liaoning Province (No.LS2010131) and Structural Engineering Fund of Provincial Key Laboratory Project, Shenyang Jianzhu University, Liaoning Province (No.
References [1] Xin Wang, Yafeng Xu: Finite Element Analysis on Two-way Bias Cross-shaped Concrete-filled Steel Tube Core Column [D] The 10th Modern Structural Engineering Conference. (2009), p.1412-1417, In Chinese

., Brno, Czech Republic 2Brno University of Technology (BUT), Faculty of Civil Engineering, Institute of Structural Mechanics, Brno, Czech Republic 3Department of Construction and Manufacturing Engineering, E.P.S. de Ingeniería de Gijón, University of Oviedo, Gijón, Spain aseitl@ipm.cz, bsimonova.h@fce.vutbr.cz, ckersner.z@fce.vutbr.cz, dafc@uniovi.es Keywords: Fatigue, concrete, Castillo’s model, approximation, Wöhler curve.
Pukl, Material model for finite element modelling of fatigue crack growth in concrete, Procedia Engineering 2 (2010) 203–212 [5] H.
Conf. on ENGINEERING MECHANICS 2011, Svratka, May 9-12, 2011

Study on the Integrated Design of Underground Construction Lighting and Ventilation System Feng weia Li huiminb College of Civil Engineering and Architecture, Shandong University of Science and Technology, Qingdao, Shandong 266510 afengwei9791@163.com, blihuimin1891@163.com Key words: underground building; lighting; ventilation, Integration Abstract.
This part is generally made of PC engineering-plastics or glasses in a special process, and the surface is treated by UV coating.
They are often made of engineering-plastics or glasses, with a good light transmittance and diffuse uniformity.
References [1] Yaoming Zhang: China Engineering Science (2002), 4, p.63 ~ 68.

Acoustic Emission Characteristics of Rock Failure under Uniaxial Loading Tao XIE1,2,a, Qinghui JIANG1,2,b, Rui CHEN3,c, Wei ZHANG3,d 1College of Civil Engineering, Wuhan University, Wuhan, Hubei, 430072, P.R.China; 2State Key Laboratory of Water Resources and Hydropower Engineering Science, Wuhan University, Wuhan, Hubei, 430072, P.R.China; 3ChangJiang Institute of Survey, Planning, Design, and Research, Wuhan, Hubei, 430010, P.R.China; atseaser@163.com, bjqh1972@yahoo.com.cn, cchenrui@cjwsjy.com.cn, dzhangwei@cjwsjy.com.cn Key words: Rock mechanics; Uniaxial loads; Cyclic loading; Continuous loading; Acoustic emission; Total amounts of AE; Count rate of AE Abstract.
Acoustic emission from failing rock behavior [J].Rock Engineering, 1994, 27 (3):173-182
Studies on acoustic emission characteristics of uniaxial compressive rock failure [J].Chinese Journal of Rock Mechanics and Engineering,2004,23(15):2499-2503.

From Waste To Electronics: Printed Circuit Boards Using Renewable Resources of Oil Palm Empty Fruit Bunch Nor`aini Ahmad Zawawi1, a, Alyani Ismail2, b, Khalina Abdan3, c and Mohd Adzir Mahdi4, d 1,2,4Centre of Excellence for Wireless and Photonic Networks Department of Computer and Communication Systems Engineering Faculty of Engineering, Universiti Putra Malaysia, 43400 Serdang, Selangor, Malaysia 3Laboratory of Biocomposite Technology, Institute of Tropical Forestry and Forest Products, Universiti Putra Malaysia, 43400 Serdang, Selangor, Malaysia aai_nee3@yahoo.com; balyani@eng.upm.edu.my; ckhalina@eng.upm.edu.my; dmdadzir@eng.upm.edu.my Keywords: Printed circuit board (PCB), natural fiber, permittivity, reflection coefficient method, green technology Abstract – Printed circuit boards (PCB) are widely used in electronic devices, at low and high frequency applications.
Laguerre, Coaxial/cylindrical transition line for broadband permittivity measurement of civil engineering materials, Measurement Science and Technology, 17 (2006) 2241-2246
Mahdi, Investigation on the microwave properties of kenaf and rice-husk fibre reinforced pla composite utilizing one-port coaxial transmission line reflection method, Key Engineering Materials, Composite Science and Technology, 471-472 (2011) 868-873

Illumination Energy Conservation Analysis of Reflective Material on the Tunnel Sidewall Guobing Pan 1,2,a, Lingna Shi 3,b, Bo Liang 1,2,c, Yuhang Pi 2,d 1State Key Laboratory of mountain bridge and tunnel engineering,Chongqing Jiaotong University,Chongqing,400074 2School of Civil Engineering & Archtecture ，Chongqing Jiaotong University，Chongqing, 400074 3College of Science, Chongqing Jiaotong University, Chongqing ,400074 apanguobing@126.com, b67831762@qq.com, cliang_laoshi@126.com, 247991094@qq.com Keywords: tunnel lighting; illumination; luminance; tunnel energy saving Abstract.
Acknowledgements This work was financially supported by Science and Technology Research Projects of Chongqing Educational Committee(KJ120402),Doctoral Fund of Ministry of Education of China(20115522110003),Scientific and Technological Projects of Yunnan Provincial Department of Communications(2010(B)16-B),and Open Foundation of State Key Laboratory Cultivation Base of Mountain Bridge and Tunnel Engineering (CQSLBF-Y11-4).
The Highway Engineering,2008,33(6):111-114

Experimental study of the temperature field in fire caused by sodium leakage in sodium-cooled fast reactor loop WU Hongmei1, a, HUO Yan2, a *, LIU Chonglin2,b , ZHANG Zhigang3,c , ZHOU Rong1,a , WANG Xin1,a 1China Ship Development and Design Center, Wuhan 430064, China 2College of Aerospace and Civil Engineering, Harbin Engineering University, Harbin 150001,China 3Fundamental Science on Nuclear Safety and Simulation Technology Laboratory, Harbin Engineering University, Harbin 150001, China a56675194@qq.com, b383523445@qq.com, c551619 @qq.com Keywords: Sodium Leakage; Sodium Fire in Form of Columnar Flow; Temperature Filed Abstract.
Rongdong and H.Wenjun, Chinese Journal of Nuclear Science and Engineering. 31 (20111) 41-47

Tendon response of 10 MW offshore wind turbine TLP platform in extreme environment condition Quan Zhang 1, a, Chengbi Zhao 1, b, *, Xiaoming Chen 2, c, Youhong Tang 3, d, *,Wei Lin 1, e 1Department of Naval Architecture and Ocean Engineering, School of Civil Engineering and Transportation, South China University of Technology, Guangdong 510641, China 2China Ship Architecture Design & Research Institute Co., Ltd., Beijing 100024, China 3Centre for Maritime Engineering, Control and Imaging, School of Computer Science, Engineering and Mathematics, Flinders University, South Australia 5042, Australia a 411824591@qq.com, b tccbzhao@scut.edu.cn, c cxm6026@163.com d youhong.tang@flinders.edu.au, e wlin@scut.edu.cn Keywords: offshore wind turbine, tendon, extreme environment condition, tension-leg platform Abstract.

Dynamic Analysis of The Wind Turbine Tower Chi Chen 1, a, Hongbo Shen1,b , Min Wang1,c 1School of Civil Engineering and Architecture, China Three Gorges University 8 University Avenue, Yichang City, China achchen@ctgu.edu.cn, bshenhongbo1012@163.com, csblwm0424@163.com Keywords: Ansys finite element method; conical tower shell element; modal analysis; transient dynamic analysis.
The corresponding frequency is 0.303Hz, According to the engineering experience, the excitation source frequency that can cause resonance is the impeller working frequency and 3 times the working frequency, Namely 0.303Hz and 0.911Hz.The first-order natural frequency of the tower is between the two, this illustrate that the tower belongs to flexible tower, in addition, the relative difference between the natural frequency and the working frequency is greater than 10% [4], therefore the tower will not resonate with wind rotor when the wind turbine in normal operation.
Table 4 Data of Tianjin wave Time Vertical acceleration Horizontal acceleration Time Vertical acceleration Horizontal acceleration 1.000e+01 -2.436e-02 2.465e-02 5.000e+01 6.114e-02 1.409e-02 2.000e+01 3.634e-02 4.765e-02 … … … 3.000e+01 -3.463e-02 -4.425e-02 9.900e+00 4.153e-02 -1.305e-03 4.000e+01 1.759e-02 8.682e-03 1.000e+01 3.061e-01 -3.441e-01 Rayleigh damping selected as the damping input to the model is commonly used in practical engineering, which is also called proportional damping. in ANSYS, it is the sum of α-damping and β-damping.
Advanced instance of ANSYS engineering analysis[M].