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Clamp Equipment Design and Motion Analysis with ANSYS for Large Cylindrical Segment Fenghui Wang 1, a, Qian Liu 2,b and Haiming Wang 3,c 1, 2School of Mechanical Engineering and Automation, University of Science and Technology Liaoning, Anshan 114051, China 3Anshan Iron and Steel Group Corporation,Anshan,China av_kjc@163.com, b,ctclan1987@163.com Keywords: large cylindrical segment, ANSYS, clamp, motion analysis of structure, parallelogram structure Abstract.
According to the feature of large cylindrical segment, tube-shaped, huge diameter from 3 to 7 meters, a new designing method that slinging cylindrical segment by grasping double hooks was used instead of the friction one to slinging and transport the materials.
Define material type Define Nodes Generate the linkage model based on the nodes In order to build a structure, the Nodes should be concluded and distributed.
[2].State administration of material transportation.
Journal of system simulation Vol.16 No.2 Feb.2004.

With the continuous development of science and technology, create ecological living environment embodies the modern characteristic.
Focusing on new materials, new structure system.
Sun, Architectural creation, three trends in contemporary architectural surface, New Building Materials, 1 (2007)
Shi, On exploitation and management of rural Rodina Hotel, Journal of Industrial and Commercial University of Chongqing, 10 (2005).

Numerical Simulation of Welding Distortion under Different Sequences Yang Liu 1, a, Dong Po Wang 1, b, Hai Zhang 1, c 1School of material science and engineering, Tianjin University, Tianjin Key Laboratory of Advanced Joining Technology, Tianjin, China aliuyang_223@tju.edu.cn, bwangdp@tju.edu.cn, cazhanghaia2@163.com Keywords: Welding, Numerical simulation, Welding sequence, Welding distortion Abstract.
In order to simply the calculation, the material properties were assumed isotropic and all borders of the weld were assumed only transfer heat with air through convection.
The initial temperature was set at room temperature 20 ℃ Thermal elastic-plastic was chosen as the material model, material followed the Von Mises yield condition and the constitutive relation was linear hardening model [3].
Wei: Welding Journal, Vol. 25 (2004) No.2, p. 9.

Study on the Magnetic Flux Leakage (MFL) for Fillet Weld Chunfei Guo1a, Lijun Wang1b and Min Zhang1 1School of Material Science and Engineering, Tianjin University, Tianjin Key Laboratory of Advanced Joining Technology Engineering, Tianjin, 300072, China aguochunfei@gmail.com, bwanglijun@tju.edu.cn Keywords: Magnetic flux leakage, Fillet weld, Yoke-testing, ANSOFT Abstract: The magnetic flux leakage (MFL) technique is widely used as a Non-Destructive Testing (NDT) method for welds [1].
The field equations are supplemented by constitutive relationship which describes the behavior of electromagnetic materials.
References [1] Huang Zuoying, Que Peiwen, Chen Liang, 3D FEM analysis in magnetic flux leakage method, NDT&E International 2006;39;61-66 [2] F.I Al-Naemi, J.P.Hall, A.J.Moses, FEM modeling techniques of magnetic flux leakage-type NDT for ferromagnetic plate inspections, Journal of Magnetic Material, 2006;304;790-793 [3] M.Katoh, K.Nishio, T.Yamaguchi, FEM study on the influence of air gap and specimen thickness on the detestability of flaw in the yoke method, NDT&E International 2000;33;333-339 [4] Mitsuaki Katoh, Modeling of the yoke-magnetization in MFL-testing by finite elements, NDT&E International 2003;36;479-486 [5] M.Katoh, K.Nishio, The influence of modeled B-H curve on the density of the magnetic leakage flux due to a flaw using yoke-magnetization, NDT&E International 2004;32;603-609

., Hong Kong Science Park, Shatin, Hong Kong 2Syndiant Inc., Dallas, Texas, USA adcheng@syndiant.com; bdfung@syndiant.com; ckguttag@syndiant.com Keywords: Liquid crystal on silicon; LCOS; Lasers; High resolution; Pico-projectors.
For example, since it is a reflective display then light travels through the material twice, which allows much thinner cell gaps.
In addition, the smaller pixel gaps between pixels, as shown in LCOS panel performance will benefit from improvements in liquid crystal material characteristics.
LCOS microdisplays have a strong foundation from many decades of liquid crystal material development and will continue to improve with new developments in material properties.
Someya: Journal of the Society for Information Display Vol. 17 (2009), p. 875.

However, for some experimental cases, such as rolling of newly developed materials, coil is not available. (2) A complicated tension control system is needed.
Table 2 Austenitic stainless steel 304 rolling process actual data Mill Information: Work roll diameter[mm] Backup roll diameter[mm] 149.0 550.0 PDI Information: ID Steel grade Material Size[mm] Production size[mm] Thickness Width Length Thickness Width Length 1100000012 304 3.000 250.00 300.00 1.352 250.00 665.7 Pass actual data: Pass Number [-] Roll gap [mm] Rolling force [kN] Entry thickness [mm] Exit thickness [mm] Reduction [%] Entry Tension [kN] Exit Tension [kN] Rolling speed [m/s] Motor power [kW] 1 2.653 930.42 3.000 2.656 11.465 48.80 42.52 0.093 7.209 2 2.443 943.58 2.656 2.501 5.835 53.50 30.52 -0.108 2.360 3 2.353 945.27 2.501 2.383 4.721 49.09 42.92 0.112 4.692 4 2.208 973.08 2.383 2.285 4.099 53.44 30.83 -0.110 1.664 5 2.168 949.78 2.285 2.205 3.506 49.07 42.94 0.102 3.931 6 2.064 964.53 2.205 2.149 2.567 53.36 30.51 -0.092 0.593 …… 33 1.089 1203.27 1.363
1.352 0.822 79.52 80.41 0.103 2.554 Table 3 TRIP steel rolling process actual data Mill Information: Work roll diameter[mm] Backup roll diameter[mm] 200.0 550.0 PDI Information: ID Steel grade Material Size[mm] Production size[mm] Thickness Width Length Thickness Width Length 090617-TRIP2 TRIP 5.350 150.00 775.00 1.878 150.00 2208.2 Pass actual data: Pass Number [-] Roll gap [mm] Rolling force [kN] Entry thickness [mm] Exit thickness [mm] Reduction [%] Entry Tension [kN] Exit Tension [kN] Rolling speed [m/s] Motor power [kW] 1 3.96 1385.6 5.350 4.589 14.23 103.28 97.83 0.037 4.813 2 3.30 1391.5 4.589 3.999 12.86 117.70 94.31 -0.037 5.245 3 2.78 1406.8 3.999 3.494 12.63 99.58 95.35 0.036 3.867 4 2.22 1447.0 3.494 3.035 13.14 117.86 93.93 -0.036 4.898 5 1.84 1464.5 3.035 2.678 11.73 92.95 84.25 0.036 3.462 6 1.41 1512.1 2.678 2.375 11.33 95.42 75.34 -0.037 3.849 7 1.08 1581.1 2.375
Chen: Journal of Northeastern University (Natural Science) Vol.25 (2004), p. 412.

2-D Magnetic Field Analysis of Air Cylinder with MR Sensor Dan Jianga, Ping Yangb, Kun Jiangc School of Mechatronics Engineering, University of Electronic Science and Technology of China, Chengdu 611731, China ajdan2002@uestc.edu.cn, bping@uestc.edu.cn, cjiangkun880810@126.com Keywords: Air cylinder, MR sensor, Magnetic field, Finite element analysis.
The components material and parameters of air cylinder are listed in Table 1.
Table 1 Components material and parameters Components Material Relative permeability Coercivity [Oe] Piston Aluminum alloy 1 - Cylinder tube Aluminum alloy 1 - Built-in magnet Plastic magnet 200 1400 Piston rod Carbon steel 1000 - Cushion ring Brass 1 - Depending upon these parameters and material of the components, the magnetic field distribution of the air cylinder with piston motion is analyzed.
Koymen: IEEE Sensors Journal Vol. 5 (2005), p. 1258 [2] A.

A kind of swinging bumper in the rear of a truck and its performance research Jinfa Xie1,a, Yanqiang Cheng1,b 1Henan university of science and technology, Luoyang, China, 471003 ajfxie821@163.com, bcyqzpp@yeah.net Keywords：truck; protective device; the swinging; welding; bolted connection Abstract: Using three-dimensional modeling software to design a kind of swinging rear underrun protective device, using the Ansys finite element analysis software, in accordance with the provisions of GB11567.2-2001, the rear underrun protective device applied static load analysis.
The material of the latest rear guard device is carbon structural steel.
Tab.1 The basic material properties of the protective frame material Modulus N/m2 Poisson ratio Density Kg/m3 Shear modulus N/m2 Tensile strength N/m2 Yield strength N/m2 NO. 45 steel 2.09×1011 0.3 7.89×103 8.23×1010 6.0×108 3.55×108 Fig.1 The swinging bumper in the rear of a truck Establishing the finite element model of the swinging protective device GB11567.2-2001 provisions the protective device has the blocking capability in rear end collision between car and truck.
Improvement and Simulation of the Bumper in the Rear of a Truck[J].JOURNAL OF XIHUA UNIVERSITY (NATURAL SCIENCE EDITION),2007,26(3):27-30.

For the experiment, material testing system (MTS) was employed as the loading equipment.
Acknowledgements This work was financially supported by the Science and Technology Project of Western Traffic Construction (2008 318 740 54 and 2009 318 740 99) and the Chongqing Natural Science Foundation (cstc2012jjA30008).
JOURNAL OF SHANGHAI JIAOTONG UNIVERSITY, 2011, Vol. 45(Sup.): 62-66 (In Chinese) [3] Ling Yao, Hongduo Zhao, Zhanyu Dong, Yuanfa Gao.
Key Engineering materials, 2011, Vol. 492: 172-175 [4] Tao yujie, Zhao Hongduo.

Experimental The experimental material is the Mg alloy AZ31 which is alloyed by the element Al and the elements Zinc (Zn) .
Materials Science and Engineering: A Vol.505,(2009),p6-12
Journal of Physics D: Applied Physics (2008),41(13),p1-8
Plasma Science and Technology (2011),13(2),p3887-3897