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Online since: October 2004
Authors: Yeong Maw Hwang, J.C. Huang, Yi Kai Lin, C.C. Huang
Mechanical and Electromechanical Engineering, National Sun-Yat-Sen University,
Kaohsiung, Taiwan 804
a
jacobc@mail.nsysu.edu.tw, b YMHwang@mail.nsysu.edu.tw
Keywords: Mg alloys, Tube hydroforming, Superplasticity, Fine grain size
Abstract.
Forum Vol. 350-351 (2000), p. 19
Forum Vol. 426-432 (2003), p. 2655
Kalpakjian: Manufacturing Processes for Engineering Materials. (3rd ed., Addison-Wesley, Menlo Park, California, USA.1997), p. 342
Hwang, Proceedings of International Conference on Advanced Materials Processing Technologies (AMPT'01, Madrid, Spain), Vol.
Forum Vol. 350-351 (2000), p. 19
Forum Vol. 426-432 (2003), p. 2655
Kalpakjian: Manufacturing Processes for Engineering Materials. (3rd ed., Addison-Wesley, Menlo Park, California, USA.1997), p. 342
Hwang, Proceedings of International Conference on Advanced Materials Processing Technologies (AMPT'01, Madrid, Spain), Vol.
Online since: February 2011
Authors: Sheng Zhong Kou, Chun Yan Li, Yan Chun Zhao, Guang Qiao Liu, Hongli Suo
In practice, the engineering commercialization of these BMGs is hindered by their limited GFA, low thermal stability and unsatisfactory manufacturability.
Materials Science and Engineering, 2001,A304 306:1-10
Materials Science and Engineering A, 2003, A343:194-198
Materials Science Forum, 1999;307-31-6.
Mater Sci Forum 1996;225-227:311
Materials Science and Engineering, 2001,A304 306:1-10
Materials Science and Engineering A, 2003, A343:194-198
Materials Science Forum, 1999;307-31-6.
Mater Sci Forum 1996;225-227:311
Online since: September 2014
Preface
This proceeding contains the accepted papers from The 2014 3rd International
Conference on Civil, Architectural and Hydraulic Engineering (ICCAHE2014).
This conference series is a forum for enhancing mutual understanding between scientists, engineers, policymakers and experts in the civil, architectural and hydraulic engineering field.
This book covers the subject areas of Structural Engineering, Geotechnical and Geological Engineering, Tunnel, Subway and Underground Facilities, Seismic Engineering, Coastal Engineering, Oil, Gas and Mineral Resources Exploitation, Heating, Gas Supply, Ventilation and Air Conditioning Works, Disaster Prevention and Mitigation, Surveying Engineering, Cartography and Geographic Information Systems, Computational Mechanics and Applied Mechanics, Construction Technology, Architectural Design and Its Theory, Building Technology Science, Renewable Energy, Energy Saving Building, Low-Carbon Building, Ecological Building, Urban, Rural Planning and Design, Landscape Planning and Design, Traditional Construction Materials, Advanced Construction Materials, Project Management, Engineering Management, Civil and Construction Industry Management, Infrastructure Demand and Supply, Engineering Education.
The Organizing Committee of ICCAHE2014 The 2014 3rd International Conference on Civil, Architectural and Hydraulic Engineering (ICCAHE 2014) Conference Organization Chairman Prof.
This conference series is a forum for enhancing mutual understanding between scientists, engineers, policymakers and experts in the civil, architectural and hydraulic engineering field.
This book covers the subject areas of Structural Engineering, Geotechnical and Geological Engineering, Tunnel, Subway and Underground Facilities, Seismic Engineering, Coastal Engineering, Oil, Gas and Mineral Resources Exploitation, Heating, Gas Supply, Ventilation and Air Conditioning Works, Disaster Prevention and Mitigation, Surveying Engineering, Cartography and Geographic Information Systems, Computational Mechanics and Applied Mechanics, Construction Technology, Architectural Design and Its Theory, Building Technology Science, Renewable Energy, Energy Saving Building, Low-Carbon Building, Ecological Building, Urban, Rural Planning and Design, Landscape Planning and Design, Traditional Construction Materials, Advanced Construction Materials, Project Management, Engineering Management, Civil and Construction Industry Management, Infrastructure Demand and Supply, Engineering Education.
The Organizing Committee of ICCAHE2014 The 2014 3rd International Conference on Civil, Architectural and Hydraulic Engineering (ICCAHE 2014) Conference Organization Chairman Prof.
Online since: July 2013
Authors: Ionică Cîrciu, Mircea Boşcoianu, Vasile Prisacariu
Fig.5 Kestrel [6] and MP 2128x autopilot [7]
Advanced materials.
The advanced morphing technologies, like compliant structures [8] with bi-stable materials and aero-elastic manufacturing [9] should allow a multi-role design for aircrafts with the same level of performance and flight quality. .
Advanced sensors used to measure response features for flight maneuvers; the latest software together with quality analysis methods for performances will lead to a global improvement of the bearing surfaces.
G., Biologically Inspired Morphing Flight for MAV design, Department of Mechanical and Aerospace Engineering North Carolina State University, (August 20, 2008), information on http://www.mae.ncsu.edu/ssml/Materials/MAE478/Biologically%20Inspired %20Morphing%20Flight.pdf, accessed at 10.12.2012 [4] Bourdin, P.
"The Application of Variable Cant Angle Winglets for Morphing Aircraft Control", 24th Applied Aerodynamics Conference, 5 - 8 June 2006, San Francisco, California. [5] Ursache, N.M. et.al., “Morphing Winglets for Aircraft Multi-Phase Improvement” AIAA-2007-7813 7th AIAA ATIO Conf, 2nd CEIAT Int'l Conf on Innov and Integr in Aero Sciences,17th LTA Systems Tech Conf; followed by 2nd TEOS Forum, Belfast, Northern Ireland, Sep. 18-20, 2007 [6] UAV flying guide, Kestrel autopilot system, 2008, 27p, information on http://www.procerusuav.com /index.php, accessed at 12.01.2013 [7] Information on http://www.micropilot.com, accessed at 1701.2013 [8] D.
The advanced morphing technologies, like compliant structures [8] with bi-stable materials and aero-elastic manufacturing [9] should allow a multi-role design for aircrafts with the same level of performance and flight quality. .
Advanced sensors used to measure response features for flight maneuvers; the latest software together with quality analysis methods for performances will lead to a global improvement of the bearing surfaces.
G., Biologically Inspired Morphing Flight for MAV design, Department of Mechanical and Aerospace Engineering North Carolina State University, (August 20, 2008), information on http://www.mae.ncsu.edu/ssml/Materials/MAE478/Biologically%20Inspired %20Morphing%20Flight.pdf, accessed at 10.12.2012 [4] Bourdin, P.
"The Application of Variable Cant Angle Winglets for Morphing Aircraft Control", 24th Applied Aerodynamics Conference, 5 - 8 June 2006, San Francisco, California. [5] Ursache, N.M. et.al., “Morphing Winglets for Aircraft Multi-Phase Improvement” AIAA-2007-7813 7th AIAA ATIO Conf, 2nd CEIAT Int'l Conf on Innov and Integr in Aero Sciences,17th LTA Systems Tech Conf; followed by 2nd TEOS Forum, Belfast, Northern Ireland, Sep. 18-20, 2007 [6] UAV flying guide, Kestrel autopilot system, 2008, 27p, information on http://www.procerusuav.com /index.php, accessed at 12.01.2013 [7] Information on http://www.micropilot.com, accessed at 1701.2013 [8] D.
Online since: September 2013
Authors: Anna Gorbenko, Vladimir Popov
Popov (2006) Semigroup Forum 72(25):1
[4] V.Yu (2001) Popov Mathematical Notes 69(2):657
[5] V.
Popov (2012) Advanced Studies in Biology 4(25):479, 485 [6] Gorbenko and V.
Popov (2012) Advanced Studies in Biology 4(2):373 [8] Gorbenko and V.
Popov (2012) Advanced Studies in Biology 4(8):491, 497 [10] V.Yu.
Popov (2012) in: Proceedings of the CICA 2011, Lecture Notes in Electrical Engineering 107(15):1289 [24] Gorbenko, A.
Popov (2012) Advanced Studies in Biology 4(25):479, 485 [6] Gorbenko and V.
Popov (2012) Advanced Studies in Biology 4(2):373 [8] Gorbenko and V.
Popov (2012) Advanced Studies in Biology 4(8):491, 497 [10] V.Yu.
Popov (2012) in: Proceedings of the CICA 2011, Lecture Notes in Electrical Engineering 107(15):1289 [24] Gorbenko, A.
Online since: October 2011
The conference
is an international forum for the presentation of technological advances and
research results in the fields of Manufacturing Technology and Design Science.
The conference will bring together leading researchers, engineers and scientists in the domain of interest from around the world.
We believe the proceeedings will provide the readers a broad overview of the latest advances in the field of Manufacturing, Design and material Science.
Chen Ran, Chongqing University of Technology, China Control Engineering and Information Science Research Association (CEIS) Local Organizing Chairs: Prof.
Wu, National Taichung University, Taiwan Hua-Zhi Hus, National Kaohsiung Marine University, Taiwan Shih-Heng Tung, National University of Kaohsiung, Taiwan Kuo-Tsang Huang, National Chiayi University, Taiwan Chen-Yi Sun, National Chengchi University, Taiwan Jun-Hong Lin, Nanhua University, Taiwan Lei Wei, National Chin-Yi University of Technology, Taiwan Chih-Min Cheng, National Chin-Yi University of Technology, Taiwan Kuang-Cheng Yu, National Chin-Yi University of Technology, Taiwan Ting-Yu Chen, National Chin-Yi University of Technology, Taiwan Hsien-Jung Wang, Rong Chin Engineering Consultants, Taiwan Shyh-Hong Hsieh, Skytech Science & Technology Engineering Co., Ltd., Taiwan Patrick Lin, ECOA Technologies Co., Taiwan Hsiu-Lan Ma, Ling Tung University, Taiwan Co-Sponsored by Control Engineering and Information Science Research Association International Frontiers of science and technology Research Association National Chin-Yi University of
The conference will bring together leading researchers, engineers and scientists in the domain of interest from around the world.
We believe the proceeedings will provide the readers a broad overview of the latest advances in the field of Manufacturing, Design and material Science.
Chen Ran, Chongqing University of Technology, China Control Engineering and Information Science Research Association (CEIS) Local Organizing Chairs: Prof.
Wu, National Taichung University, Taiwan Hua-Zhi Hus, National Kaohsiung Marine University, Taiwan Shih-Heng Tung, National University of Kaohsiung, Taiwan Kuo-Tsang Huang, National Chiayi University, Taiwan Chen-Yi Sun, National Chengchi University, Taiwan Jun-Hong Lin, Nanhua University, Taiwan Lei Wei, National Chin-Yi University of Technology, Taiwan Chih-Min Cheng, National Chin-Yi University of Technology, Taiwan Kuang-Cheng Yu, National Chin-Yi University of Technology, Taiwan Ting-Yu Chen, National Chin-Yi University of Technology, Taiwan Hsien-Jung Wang, Rong Chin Engineering Consultants, Taiwan Shyh-Hong Hsieh, Skytech Science & Technology Engineering Co., Ltd., Taiwan Patrick Lin, ECOA Technologies Co., Taiwan Hsiu-Lan Ma, Ling Tung University, Taiwan Co-Sponsored by Control Engineering and Information Science Research Association International Frontiers of science and technology Research Association National Chin-Yi University of
Online since: August 2009
Authors: P. Hernández, G. Peláez, J.A. Pérez, Jose L. Diéguez, A. Pereira, Enrique Ares
Good practices in teaching of advanced processes in mechanical
engineering projects learning groups
J.E.
Methodology and development of teaching focused on groups of projects in mechanical engineering In order to habituate to the students, (Manufacturing Engineering of the fifth course of the Engineering Technical High School), teachers will facilitate the procedure to develop a methodology that seeks to establish patterns in: - The formation of project teams
- Product Development and Concurrent Engineering
International Conference on Engineering Education. (2001) [3] K.
Gallois, "Implementation of technogenesis in the undergraduate engineering curriculum," proceedings of the 2002 ASEE/SEFI/TUB colloquium
Methodology and development of teaching focused on groups of projects in mechanical engineering In order to habituate to the students, (Manufacturing Engineering of the fifth course of the Engineering Technical High School), teachers will facilitate the procedure to develop a methodology that seeks to establish patterns in: - The formation of project teams
- Product Development and Concurrent Engineering
International Conference on Engineering Education. (2001) [3] K.
Gallois, "Implementation of technogenesis in the undergraduate engineering curriculum," proceedings of the 2002 ASEE/SEFI/TUB colloquium
Online since: November 2012
Authors: János Ginsztler, Peter Kun, Imre Norbert Orbulov
In case if it can be advanced to die casting the cost of the MMSFs will drop significantly.
According to the results engineering factors (matrix material, size of the microballoons, applied heat treatment, temperature of the tests) have significant effects on the compressive properties.
Six specimens were compressed until 50% engineering strain from each MMSF type to get representative results.
The advanced measuring system Figure 6.
Forum 473-474 (2005) 297-302
According to the results engineering factors (matrix material, size of the microballoons, applied heat treatment, temperature of the tests) have significant effects on the compressive properties.
Six specimens were compressed until 50% engineering strain from each MMSF type to get representative results.
The advanced measuring system Figure 6.
Forum 473-474 (2005) 297-302
Online since: January 2016
Authors: Radek Fabian, Hana Sevcikova, Zdenek Perina, Marcela Halirova, Eva Rykalova
In Journal Advanced Materials Research.
In Journal Advanced Materials Research.
In Journal Advanced Engineering Forum. 2014, volume 12, pp 132-136, doi: 10.4028/www.scientific. net/AEF.12.132 [6] RYKALOVA, E., FABIAN, R.: Analysis of the behavior of glass claddings.
In Journal Advanced Materials Research.
In Journal Advanced Materials Research.
In Journal Advanced Materials Research.
In Journal Advanced Engineering Forum. 2014, volume 12, pp 132-136, doi: 10.4028/www.scientific. net/AEF.12.132 [6] RYKALOVA, E., FABIAN, R.: Analysis of the behavior of glass claddings.
In Journal Advanced Materials Research.
In Journal Advanced Materials Research.