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Online since: October 2011
Authors: Jiang Hao Wu, Chao Zhou, Yan Lai Zhang
The effects of flexible deformation on an oscillating airfoil at low Reynolds number
Jianghao Wu 1, a, Chao Zhou 1 and Yanlai Zhang 1
1School of Transportation Science and Engineering, Beihang University, Beijing, China P.
Materials and Methods The oscillation motion of a flexible airfoil is consist of plunging, pitching and active flexible deformation.
Acknowledgements This research was supported by the National Natural Science Foundation of China (10902009).
References [1] DC Li, SJ Guo, ND Matteo and DQ Yang, “Design, Experiment and Aerodynamic Calculation of a Flapping Wing Rotor Micro Aerial Vehicle,” 52nd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials, Denver, Colorado, USA, 2011 [2] P Wu and P Ifju, AIAA JOURNAL, Vol. 48, No. 9, 2010, pp.2111-2122 [3] L Zhao, QF Huang, XY Deng and S Sane, “The effect of chord-wise flexibility on the aerodynamic forcegeneration of flapping wings: experimental studies,” 2009 IEEE International Conference on Robotics and Automation Kobe International Conference Center, Kobe, Japan, 2009, pp.4207-4212 [4] W Shyy, Y Lian, J Tang, H Liu, P Trizila, B Stanford, L Bernal, C Cesnik, P Friedmann and P Ifju, “Computational Aerodynamics of Low Reynolds Number Plunging, Pitching and Flexible Wings for MAV Applications,” 46th AIAA Aerospace Sciences Meeting and Exhibit,7 - 10 January 2008, AIAA 2008-523 [5] L Bao and BG Tong, Journal of the Graduate School of the Chinese Academy of Sciences
[8] C Heathcote, S Martin and D Gursul, AIAA JOURNAL, Vol. 42,No. 11, November 2004, pp. 2196-2204.
Materials and Methods The oscillation motion of a flexible airfoil is consist of plunging, pitching and active flexible deformation.
Acknowledgements This research was supported by the National Natural Science Foundation of China (10902009).
References [1] DC Li, SJ Guo, ND Matteo and DQ Yang, “Design, Experiment and Aerodynamic Calculation of a Flapping Wing Rotor Micro Aerial Vehicle,” 52nd AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dynamics and Materials, Denver, Colorado, USA, 2011 [2] P Wu and P Ifju, AIAA JOURNAL, Vol. 48, No. 9, 2010, pp.2111-2122 [3] L Zhao, QF Huang, XY Deng and S Sane, “The effect of chord-wise flexibility on the aerodynamic forcegeneration of flapping wings: experimental studies,” 2009 IEEE International Conference on Robotics and Automation Kobe International Conference Center, Kobe, Japan, 2009, pp.4207-4212 [4] W Shyy, Y Lian, J Tang, H Liu, P Trizila, B Stanford, L Bernal, C Cesnik, P Friedmann and P Ifju, “Computational Aerodynamics of Low Reynolds Number Plunging, Pitching and Flexible Wings for MAV Applications,” 46th AIAA Aerospace Sciences Meeting and Exhibit,7 - 10 January 2008, AIAA 2008-523 [5] L Bao and BG Tong, Journal of the Graduate School of the Chinese Academy of Sciences
[8] C Heathcote, S Martin and D Gursul, AIAA JOURNAL, Vol. 42,No. 11, November 2004, pp. 2196-2204.
Online since: October 2012
Authors: Hu Jun He, Sheng Rui Su, Ying Zhang, Peng Li
Acknowledgements
This work was financially supported by the major program of the national natural science foundation of China(41030749), the national natural science foundation of China(41072223) and the geological survey projects of geological survey bureau of China(1212010914205).
ELLIS, Liang Yan, Nicholas RICHARDSON, Shunli Dong, Yi Zhang, Yulin He, Hao Chen, Baocheng Qiao and Bolin Ma: Journal of Engineering Geology, Vol. 17, No.1(2009), pp. 3-16.
(In Chinese) [6] Qincai Wang, Zhangli Chen and Sihua Zheng: Chinese Science Bulletin, Vol. 53, No.16(2009), pp. 2348-2354.
(In Chinese) [8] Sumei Liu and Lihua Xu: Chinese Journal of Rock Mechanics and Engineering, Vol. 23, No.23(2004), pp. 4017-4021.
(In Chinese) [9] Weihua Song, Hongwei Zhang and Xiuru Xu: Journal of Liaoning Technical University, Vol. 25, No.1(2006), pp. 39-41.
ELLIS, Liang Yan, Nicholas RICHARDSON, Shunli Dong, Yi Zhang, Yulin He, Hao Chen, Baocheng Qiao and Bolin Ma: Journal of Engineering Geology, Vol. 17, No.1(2009), pp. 3-16.
(In Chinese) [6] Qincai Wang, Zhangli Chen and Sihua Zheng: Chinese Science Bulletin, Vol. 53, No.16(2009), pp. 2348-2354.
(In Chinese) [8] Sumei Liu and Lihua Xu: Chinese Journal of Rock Mechanics and Engineering, Vol. 23, No.23(2004), pp. 4017-4021.
(In Chinese) [9] Weihua Song, Hongwei Zhang and Xiuru Xu: Journal of Liaoning Technical University, Vol. 25, No.1(2006), pp. 39-41.
Online since: April 2020
Authors: Yun Gang Li, Yong Zheng Wang, Ke Zhang, Yu Sun
Kaolin, pulverized coal ash, silica fume, dolomite, limestone and bauxite are used as additives in this study, to investigate the degree of corrosion of four metal materials on biomass boiler.
The corrosion resistance of different metal materials of the boiler is discussed.
The test used four metal materials, include 15CrMoG, 12Cr1MoVG, T91 and 20G.
These metals are common heat exchange surface materials in biomass boilers.
Ye:Huazhong University of Science and Technology (2007)
The corrosion resistance of different metal materials of the boiler is discussed.
The test used four metal materials, include 15CrMoG, 12Cr1MoVG, T91 and 20G.
These metals are common heat exchange surface materials in biomass boilers.
Ye:Huazhong University of Science and Technology (2007)
Online since: November 2013
Authors: Qing Yu Zou, Hou Tao, Fu Liu
Materials and methods
Construction of the TRN of E. coli.
Ma'ayan, Introduction to network analysis in systems biology, Science Signaling. 4(2011)
Bolouri, A genomic regulatory network for development, Science. 295(2002) 1669-1678
Aravind, Evolutionary dynamics of prokaryotic transcriptional regulatory networks, Journal of Molecular Biology. 358(2006) 614-633
Shao, The complete genome sequence of escherichia coli k-12, Science. 277(1997) 1453-1462
Ma'ayan, Introduction to network analysis in systems biology, Science Signaling. 4(2011)
Bolouri, A genomic regulatory network for development, Science. 295(2002) 1669-1678
Aravind, Evolutionary dynamics of prokaryotic transcriptional regulatory networks, Journal of Molecular Biology. 358(2006) 614-633
Shao, The complete genome sequence of escherichia coli k-12, Science. 277(1997) 1453-1462
Online since: May 2014
Authors: Hiroshi Utsunomiya, Toru Kazaoka, Dan Hua Zhou, Noriaki Kataoka, Ryo Matsumoto
It is known that grain refinement improves balance of strength and ductility of materials.
Alexandrov, Progress in Materials Science, 45 (2000) 103
Segal, Materials Science and Engineering, A197 (1995) 157
Fukuzawa, Journal of Japan Institute of Light Metals, 34 (1984) 78
Hatta, Journal of the JSTP, 34 (1993) 165.
Alexandrov, Progress in Materials Science, 45 (2000) 103
Segal, Materials Science and Engineering, A197 (1995) 157
Fukuzawa, Journal of Japan Institute of Light Metals, 34 (1984) 78
Hatta, Journal of the JSTP, 34 (1993) 165.
Online since: June 2014
Authors: Kai Zhao
Prediction of TCP phases in nickel-base superalloys
Kai Zhao 1, a
1School of Metallurgical and Materials Engineering, Chongqing University of Science and Technology, Chongqing, 401331, China
a tony_zk@163.com
Keywords: superalloy; TCP phases
Abstract.
Acknowledgement This research is funded by Natural Science Foundation Project of CQ CSTC2012jjA1491 and Research Foundation of Chongqing University of Science & Technology (No. is CK2011B18).
Journal of Metals, 1968,11,pp.46-53
Materials Science Progress. 1989, Vol.3,pp.210-214
Journal of Aeronautical Materials, Vol.18,1998,pp.13-18.
Acknowledgement This research is funded by Natural Science Foundation Project of CQ CSTC2012jjA1491 and Research Foundation of Chongqing University of Science & Technology (No. is CK2011B18).
Journal of Metals, 1968,11,pp.46-53
Materials Science Progress. 1989, Vol.3,pp.210-214
Journal of Aeronautical Materials, Vol.18,1998,pp.13-18.
Online since: October 2013
Authors: Guang Xia Chen, Qun Qin
Methods and materials
In the present experiments, stainless steel powder (Fe-17Cr-4Ni-2Mo-0.1C(quality fraction ω)) was used that its granularity was -325 and SLM system which was developed and manufactured by ourselves was employed in our research.
Applied Surface Science, 253 (2007): 8064–8069 [2] D.T.
International Journal of Machine Tools & Manufacture, 1998, (38): 1257-1287 [3] P.A.
International Journal of Machine Tools & Manufacture [J], 2005(45): 1288–1294 [5] F.
Materials Science and Engineering A 445–446 (2007):461–466 [6] Zhang D Y.
Applied Surface Science, 253 (2007): 8064–8069 [2] D.T.
International Journal of Machine Tools & Manufacture, 1998, (38): 1257-1287 [3] P.A.
International Journal of Machine Tools & Manufacture [J], 2005(45): 1288–1294 [5] F.
Materials Science and Engineering A 445–446 (2007):461–466 [6] Zhang D Y.
Online since: May 2012
Authors: Hai Ying Wang, Yu Mei Wang, Dong Liang Lin, Da Gang Li
Introduction
Wood-plastic composite materials (WPC), combined with many advantages of both plant fiber and polymer materials, are the ideal substitute for wood and steel in many areas [1-5].
WPC are widely used in landscape gardening, building materials, packaging materials, interior auto parts and so on.
Further more, it is a very important mechanical index to determine the stiffness of materials [11].
Journal of Applied Polymer Science, Vol. 119(2011), p.3207–3216
Science in China Ser.E Technological Sciences, Vol. 36(2006), p. 1263~1272.
WPC are widely used in landscape gardening, building materials, packaging materials, interior auto parts and so on.
Further more, it is a very important mechanical index to determine the stiffness of materials [11].
Journal of Applied Polymer Science, Vol. 119(2011), p.3207–3216
Science in China Ser.E Technological Sciences, Vol. 36(2006), p. 1263~1272.
Online since: August 2011
Authors: Ming Chen, Yu Wang, Jun Qing Gao, En Chen
Parts containing these materials should be identified and redesigned to either reduce the problem material or ease its disassembly. (2) Many vehicle assemblies are too complicated for easy removal either because they have too many constituent parts or are made from a large of materials.
Expectations in materials design include: (1) Increased use of recyclable and environmentally beneficial materials; (2) increased use of recycled materials; (3) Removal of banned substances.
Meanwhile, in the shredding process, an ELV is compressed and fed into a drum, where it is ripped apart by a set of rotating hammers until it’s small enough to drop out of an output grid where light materials are separated from heavy materials [4].
Kandlikar, Journal of Cleaner Production 15(2007), p.17 [4] M.
Kandlikar, Journal of Cleaner Production 15(2007), p.17
Expectations in materials design include: (1) Increased use of recyclable and environmentally beneficial materials; (2) increased use of recycled materials; (3) Removal of banned substances.
Meanwhile, in the shredding process, an ELV is compressed and fed into a drum, where it is ripped apart by a set of rotating hammers until it’s small enough to drop out of an output grid where light materials are separated from heavy materials [4].
Kandlikar, Journal of Cleaner Production 15(2007), p.17 [4] M.
Kandlikar, Journal of Cleaner Production 15(2007), p.17
Online since: January 2014
Authors: Long Zhi Zhao, Jian Zhang, Wen Ni Wu
Laser processing of materials [J].
Materials Science and Engineering A, 2003,Vol.28:495-562
Materials Letters,2009,Vol.25(4):492-498
Chinese Journal of Lasers,2006,Vol.33(5):146-150
Chinese Journal of Nonferrous Metals,2010, Vol.20(9):1665-1670
Materials Science and Engineering A, 2003,Vol.28:495-562
Materials Letters,2009,Vol.25(4):492-498
Chinese Journal of Lasers,2006,Vol.33(5):146-150
Chinese Journal of Nonferrous Metals,2010, Vol.20(9):1665-1670