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Formability Analysis of Fiber Metal Laminates with Different Core and Skin Layers by Stamping Process Lei Li1,a, Lihui Lang1,b, Blala Hamza1,c and Sergei Alexandrov1,d 1Department of Mechanical Engineering and Automation, Beihang University, 37#Xueyuan Road, Haidian District, Beijing, China ablue-view@163.com, blang@buaa.edu.cn, cblala.hamza@yahoo.fr, dsergei_alexandrov@yahoo.com Keywords: Core layers, Fiber Metal Laminates (FMLs), Forming limit height Abstract.
Choi, Fiber metal laminates: An advanced material for future aircraft.
International Journal of Impact Engineering, 49 (2012) 77-90
Remmers, Analysis of fracture and delamination in laminates using 3D numerical modelling, Engineering Fracture Mechanics. 76 (2009) 761-780
Materials Science Forum. (2018)

Phanikumar1,c 1 Department of Metallurgical and Materials Engineering, Indian Institute of Technology Madras Chennai- 600036, India 2 Advanced Magnetic Materials Group, Defence Metallurgical Research Laboratory Hyderabad-500058, India a rvsp@smail.iitm.ac.in bmraja@dmrl.drdo.in cgphani@iitm.ac.in Keywords: Melt spinning, Ni2(Mn,Fe)Ga, Heusler Alloy, Tweed structure, Martensite Abstract.
Jones, et al., Materials Science and Engineering A, 11-19 304 (2001)
Wang, et al., Materials Science and Engineering A 438-440 (2006) [7] Daniel Soto, et al., Physical Review B 77, 184103, 2008 [8] R.V.S.
Phanikumar, Material Science forum (to be published) [9] R.V.S.

Grain boundary sliding of �5(001) twist grain boundary in aluminum bicrystal from first-principles calculations Tokuteru Uesugi1, Kengo Tsuchiya 2, Masanori Kohyama 3 and Kenji Higashi 4 1 Department of Metallurgy and Materials Science, Graduate School of Engineering, Osaka Prefecture University, 1-1 Gakuen-cho, Sakai, Osaka, 599-8531, Japan, cz201@mtl.osakafu-u.ac.jp 2 Department of Metallurgy and Materials Science, Graduate School of Engineering, Osaka Prefecture University, 1-1 Gakuen-cho, Sakai, Osaka, 599-8531, Japan, ez202@mtl.osakafu-u.ac.jp 3 Interface Science Research Group, Special Division of Green Life Technology, National Institute of Advanced Industrial Science and Technology, 1-8-31 Midorigaoka, Ikeda, Osaka, 563-8577, Japan, m-kohyama@aist.go.jp 4 Department of Metallurgy and Materials Science, Graduate School of Engineering, Osaka Prefecture University, 1-1 Gakuen-cho, Sakai, Osaka, 599-8531, Japan, higashi@mtl.osakafu-u.ac.jp Keywords
Higashi: Materials Science Forum Vol. 419-422 (2003), p. 225 [14] M.

Many foreign universities and laboratories take VTK as teaching and research tool which has been widely used in the field of medicine, petroleum exploration, rock and soil engineering.
Figure 6 Arbitrary section 2)volume data extracting Volume data extracting can be realized by vtkImagePlaneWidget, the result is shown in Figure 7 Figure 7 Volume data extracting Summary In order to make 3D modeling method based borehole widely used in engineering, the modeling method must be simple and practical.
Display of surface from volume data [J].Computer Graphics and Applications, 1988, 3(8): 29-37 [4] M Hadwiger, C Sigg, H Scharsach Real‐Time Ray‐Casting and Advanced Shading of Discrete Isosurfaces[D] computer graphics forum, Volume 24, Issue 3, pages 303–312 2005 [5] S Stegmaier, M Strengert, T Klein A simple and flexible volume rendering framework for graphics-hardware-based raycasting[D], Volume Graphics, 2005 Fourth International Workshop on: 187 – 241.
[8] Fan Minghui,Chen Chongcheng, Chi Tianhe Research and Application on the Continuity of Monitoring Data Using Kriging Interpolation Computer Engineering and Applications[J] 2005 pages 210-212

Zong Precision Engineering Research Institute, P.
Introduction As the development of the science and technology, the parts with the regular curved face, the nonaxisymmetrical curved face, the free curved face and even the more complex heteromorphy's curved face have been wildly used in the advanced optical equipment field, such as military equipment, aerospace, shipbuilding, biomedicine, electron information etc.
The micro three-coordinates NC machine tool The experimental equipment is the macro three-coordinates machine tool developed by the HIT (Harbin Institute of Technology) Precision Engineering Research Institute.
The machining experiment of the complex surface part The experimental equipment is the macro precision machine tool developed by the HIT Precision Engineering Research Institute (see Fig.1).
Materials Science Forum, Vol.471 (2004), No.9, pp. 155-161.

A Feasibility Study on Metallurgical Slag Classification by Microstructure Recognition Jirapracha Thampiriyanon1,a, Kitti Laungsakulthai1,b, Piamsak Laokhen1,c, Siam Thongnak2,d and Sakhob Khumkoa1,e 1School of Metallurgical Engineering, Institute of Engineering, Suranaree University of Technology, Thailand 2School of Design Technology, Institute of Engineering, Suranaree University of Technology, Thailand ajirapracha@gmail.com, bleo8055@hotmail.com, cm6111496@g.sut.ac.th, dsiam@sut.ac.th, esakhob@sut.ac.th Keywords: Metallurgical Slag, Microstructural Analysis, Artificial Intelligent, Deep Learning, Convolutional Neural Network Abstract.
Autonomous Interpretation of the Microstructure of Steels and Special Alloys, Materials Science Forum, Vol. 949 (2019), pp. 24-31
Advanced Steel Microstructural Classification by Deep Learning Method, Scientific Reports, Vol. 8 (2018)

Acknowledgment The work was supported by National Natural Science Foundation of China (51075367), Natural Science Foundation of Zhejiang Province (Y1090931), Advanced Manufacturing Technology & Equipment Opening-Found (AMT200708-32) and the Doctoral Program of Higher Education (20070337002).
Journal: Materials Science Forum, Vols.471-472(2004), pp.481-484 [8] K.
Yao: Key Engineering Materials, Vol.304-305(2006), pp.71-75 [14] W.
Liu: Institution of Engineering and Technology, Vol.524(2006) pp.2347-2350 [15] C.Y.
Cai, 2010 International Conference on Mechanic Automation and Control Engineering, June 2010, pp.5749-5751 [17] Y.

Experiment and dynamic model of motor for rotary-screw-driven dispensing system Shuzhen Liu1, a, Yubao Zhang2,b and X.B.Chen3,c 1Institute of Mechanical Engineering, Ningbo University of Technology, Ningbo, China 2 Institute of Information Engineering,Zhejiang Textile and Fashion College, Ningbo China 3 Department of Mechanical Engineering, University of Saskatchewan, Saskatoon, Saskatchewan, S7N 5A9 ashuzhenl@163.com, bzbaob@163.com, cxbc719@mail.usask.ca Keywords: motor, dynamic model, experiment, dispensing system Abstract.
Introduction Automatic fluid dispensing has been widely applied in industry production, such as advanced integrated circuit encapsulation (AICE), surface mount technology (SMT), micro-electromechanical system(MEMS) assembly etc[1,2,3,4].
B., and Hashemi, M., 2006, “Investigation into the Performance of the Rotary Screw Fluid Dispensing Processes,” CSME Forum, May 21-24, Delta Lodge at Kananaskis, Alberta, Canada

Influence of AlCuSc ternary phase on the microstructure and properties of a 1469 alloy Min Jiaa, Ziqiao Zhengb,*, Xianfu Luo School of material science and engineering, Central South University, Changsha, Hunan, China ajm_lushan@csu.edu.cn, bs-maloy@csu.edu.cn Keywords: Sc, AlCuSc phase, Al-Li alloy, Microalloying Abstract: Microstructure evolution and mechanical properties of a 1469 alloy and a Sc-free1469 type alloy were examined.
Yelagin, Materials Science and Engineering: A, 280 (2000) 30-36
Miura, , Materials Science Forum, Trans Tech Publ, 2002, pp. 1151-1156
Ciach, Materials Science and Engineering: A, 234 (1997) 253-257
Dobatkina, Advanced aluminum alloys containing scandium: structure and properties, (Gordon & Breach Science Publishers, Newark, NJ), (1998), 175

Investigation on the Formability of Tube in Hydroforming with Radical Crushing under Simple Loading Paths Pan Lei 1,a, Lianfa Yang 1,b, Yuxian Zhang 1,c 1School of Mechanical & Electrical Engineering, Guilin University of Electronic Technology, Guilin, 541004, China aLeipan429@163.com, by-lianfa@163.com,czyx631218@163.com Keywords: Tube Hydroforming; Radial Crushing; Formability; Loading Path Abstract: Tube hydroforming with radial crushing (THFRC) process is particularly applicable to the tube which is difficult to shape due to lack of axial feeding.
Acknowledgements This work was financially supported by the National Natural Science Foundation of China (51065006), Guangxi Natural Science Foundation (0832243) and Guangxi Key Laboratory of manufacturing System & Advanced Manufacturing Technology (09-007-05S007).
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