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Investigation on the austenizing transformation process in continuously heated X65 microalloyed pipeline steels Dantian Zhang1, Zhixia Qiao 1,2, Jie Huo1,Yongchang Liu1*, Huijun Li1, and Zesheng Yan1 1State Key Lab of Hydaulic Engineering Simulation and Safety, School of Materials Science & Engineering, Tianjin University, Tianjin 300072, PR China. 2School of Mechanical Engineering, Tianjin University of Commerce, Tianjin 300134, PR China *Corresponding author: licmtju@163.com Keywords: Austenizing; Pipeline steel; Carbides; Dilatometric analysis.
The study in this work favors to develop advanced austenization technology for the practical production of X65 pipeline steels.
Lee, Materials Science Forum, (475-479)2005, p.3169-3172

The Optimal Structural Design of Energy Conservation and Weight Reduction Sprung Parts of Unit Aluminum Plate Curtain wall Han Zeguang a,Li zhiweib,Hao ruiqinc,Han taod,Yang jianfene School of Traffic and Mechanical Engineering, Shenyang Jianzhu University, Shenyang, Liaoning, China, 110168 ahanzeguang1@163.com, b yingxiong_cs@163.com, chaoruiqing1@163.com, dhanxiao1030@126.com,ey2330065@163.com, Keywords: Unit aluminum plate curtain wall; Sprung Parts; FEM; Optimization design Abstract.
If accepting curtain wall quantity is 104m2,and the specification of unit plate is 1m×1m,the total of unit plate is 10000.The sum of sprung parts can’t be less than 20000 in this engineering project as using two sprung parts at each unit plate.
Science Forum Vol.01(2009),p.250 [2] J.Fang.Building Construction Vol. 30(2008),p.883-885 [3]W.G.Bolte,R.A.LaBoube: Thin—Walled Structures Vol. 42(2004), p.1431-1443 [4] China engineering construct standardization association .GB50009-2001 Construction Structure Load Criterion(China Construction Industry Publishing Company, Beijing 2001) [5] Han Zeguang,Song Xinfang,Hao Ruiqin.
Advanced Materials Research Vol.243-249(2011), p.6165-6168

Shear Strength Evaluation of Laminated Binderless Bamboo Composites Hitoshi Takagi1, a, Hirohito Matsukawa2 and Antonio Norio Nakagaito3, b 1Institute of Technology and Science, The University of Tokushima, 2-1 Minamijosanjima-cho, Tokushima 770-8506, Japan 2Graduate School of Advanced Technology and Science, The University of Tokushima, 2-1 Minamijosanjima-cho, Tokushima 770-8506, Japan a takagi@me.tokushima-u.ac.jp, b norio@me.tokushima-u.ac.jp Keywords: Bamboo, binderless, steam-explosion, lamination, adhesion, shear strength.
Kropke: Polymer-Plastics Technology and Engineering Vol. 38 (1999), p. 99
Kobayashi: Journal of Solid Mechanics and Materials Engineering Vol. 2 (2008), p. 291
Takagi, Transactions of the Japan Society of Mechanical Engineers Part A Vol. 74 (2008), p. 84
Forum Vol. 657-677 (2011), p. 647

Introduction Impact-Echo method is non-destructive acoustic methods, which has wide application and it can be used in mechanical engineering, power engineering and in many industries as well as in civil engineering [1].
Result of fast Fourier transforms are widely used for many applications in engineering, science, and mathematics.
The signal response was taken by a piezoelectric sensor MIDI and was fed to the input of an oscilloscope TiePie engineering Handyscope HS3 two-channel with resolution 16 bits.
LO1408 "AdMaS UP - Advanced Materials, Structures and Technologies", supported by Ministry of Education, Youth and Sports under the „National Sustainability Programme I" and under the project of specific research program at Brno University of Technology, project No.
In ICEBMP 2014, Advanced Materials Research.

Beijing 100088, China 3GRINMAT Engineering Institute Co., Ltd.
An advanced method called internal electromagnetic stirring (I-EMS) was investigated to resolve the engineering problems like coarse-grain, inhomogeneous structure and macrosegregation.
Savran, et al, Structure formation and macrosegregation under different process conditions during DC casting, Materials Science and Engineering A,384(2004) 232-244
McCartney, The effect of electromagnetic stirring on macrostructure and macrosegregation in the aluminium alloy 7150, Materials Science and Engineering A, 222 (1997) 140-148
Katgerman, Effect of melt flow on macro- and microstructure evolution during solidification of an Al-4.5% Cu alloy, Materials Science and Engineering A, 413 (2005) 98-104

Slab Analysis and FEM Simulation on Rotating Compression Forming of Double-Layer Clad Cylinder Under Constant Shear Friction Gow-Yi Tzou1,a, Sen-Chyi Weng 2,b, Bor-Lih Kuo2,c 1 Department of Mechanical and Automation Engineering, Kao Yuan University No.1821, Jhonshan Rd., Lujhu District, Kaohsiung 821, Taiwan 2 Department of Mechanical Engineering, Cheng Shiu University No.840, Chengcing Rd., Niaosong District, Kaohsiung 833, Taiwan agowyitzou@cc.kyu.edu.tw, bangus710066@yahoo.com.tw, cacademic@csu.edu.tw Keywords: Rotating Compression Forming, Constant Shear Friction, Slab Method, Finite Element Method, Double-Layer Clad Cylinder.
Thus, it is of significant benefit to predict both the compression force and the bulge deformation profile in advance.
Tzou, Sergei Alexandrov, “An Upper Bound Solution for Upsetting of Two-Layer Cylinder”, Materials Science Forum Vols. 505-507, January 2006, pp.1303-1308
Tzou, Sergei Alexandrov, “An Upper Bound Solution for a Two-Layer Cylinder Subject to Compression and Twist”, Key Engineering Materials Vols. 345-346, 2007, pp. 37-40
Tzou, ”Upper Bound Method and Slab Method with Experiment on Rotating Upsetting of Double-Layer Clad Cyliner”, Advanced Science Letters Vol. 9, 2012, pp.785-789

The project' distribution charged work robots', undertook by Shandong university of science and technology research center of robot passed the 863 expert acceptance in February 2005 in Jinan, show that our country has entered the world's advanced ranks in this field.
:Inverter Control System of Alternating Current Motors Based on ARM and uC/OS-II, Advanced Engineering Forum.2 (2012) 480-485 [2] He,K.F.
Lecture Notes in Electrical Engineering, 138(2012)527-534 [3] Du, G.P.
,Huang, S.S.: Study on peak-current mode in high power soft-switching inverter.Power Electronics. 36(2002) 19-24 [4] Li,Q., Li,X.J, He,K.F.: Digital Monitoring and Control System Based on Ethernet for Twin-Arc High Speed Submerged Arc Welding.Lecture Notes in Electrical Engineering, 138(2012)518-526

Costa5,e 1,2EEL/USP, University of São Paulo, Department of Materials Engineering, Lorena-SP, Brazil 3IEAv/DCTA, Institute for Advanced Studies, Subdivisão de Lasers, S.J. dos Campos-SP, Brazil 4FEG/UNESP, São Paulo State University, Department of Mechanics, Guaratinguetá-SP, Brazil 5IAE/DCTA, Institute of Aeronautics and Space, Divisão de Sistemas Aeronáuticos (ASA), S.J. dos Campos-SP, Brazil acarlos.baptista@usp.br, bhenrique_varella@yahoo.com.br, cmiltonsflima@gmail.com, dmastorres@uol.com.br, edoug_feg@yahoo.com.br Keywords: HSLA Steel, Laser beam welding, Flash welding, Fracture toughness, CTOD.
The LBW was performed at the Institute for Advanced Studies (IEAv/DCTA, Brazil), using the high power fiber laser from IPG Photonics, model YLR-2000.
Treiber: Engineering Fracture Mechanics Vol. 64 (1999), p. 401
Naylor: Materials Science Forum Vol. 284 (1998), p. 83
Sedmak: Engineering Fracture Mechanics Vol 71 (2004), p. 1435.

Misra3,e 1University of Oulu, Dept. of Mechanical Engineering, P.O.
Box 93, 92101 Raahe, Finland 3University of Louisiana at Lafayette, Dept. of Chemical Engineering & Centre for Structural and Functional Materials, P.O.
Acknowledgements The research was carried out under the auspices of Finnish Metals and Engineering Competence Cluster (FIMECC)’s Light and Efficient Solutions Program.
Forum Vols. 706-709 (2012), p. 2824 [2] M.C.
Forum Vol. 762 (2013), p. 88 [4] J.G.

Lee 4, d 1 Center for Instrumental Analysis, Kyushu Institute of Technology, Tobata, Kitakyushu 804-8550, Japan 2 Graduated student, Department Materials Science and Engineering, Kyushu Institute of Technology, Tobata, Kitakyushu 804-8550, Japan, Now: Mitsui High-Tech Inc.
Yahata-nisi Kitakyushu 807-8875, Japan 3 Department of Applied Mathematics, Faculty of Engineering, Oita University, Dannoharu, Oita 870-1192, Japan 4 School of Nano & Advanced materials engineering, Changwon National University, Changwon, Kyungnam, 541-773, Korea a shimozak@kitcia.kyutech.ac.jp, bkenichi-takasaki@mitsui-high-tec.com, cokino@cc.oita-u.ac.jp, d cglee@sarim.changwon.ac.kr Keywords: TiAl3, oxidation rate, Interdiffusion coefficient, Ti3Al, TiAl, multi-phase diffusion Abstract.
Onishi: Defect and Diffusion Forum Vols. 143-147 (1997), p.591 [14] Th.
Okino and C-G Lee: Defect and Diffusion Forum Vol. 237-240 (2004), p. 885