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Online since: January 2006
Authors: Maria W. Richert, Lech Olejnik, Andrzej Rosochowski
Narbutta 85, 02-524 Warsaw, Poland
3
AGH University of Science and Technology, Al.
Ductility is higher for the 120° channel, which can be related to the material's lower strength.
The microstructure of the material after both processes is similar but not identical (Fig. 9).
Richert: Journal of Steel and Related Materials - Steel GRIPS Vol. 2 (2004) Suppl.
ESAFORM Conference on Material Forming, Cluj-Napoca, Romania, April 27-29, 2005 [7] V.M.
Ductility is higher for the 120° channel, which can be related to the material's lower strength.
The microstructure of the material after both processes is similar but not identical (Fig. 9).
Richert: Journal of Steel and Related Materials - Steel GRIPS Vol. 2 (2004) Suppl.
ESAFORM Conference on Material Forming, Cluj-Napoca, Romania, April 27-29, 2005 [7] V.M.
Online since: August 2012
Authors: Zhi Wen Xu, Wan Zhu Guo, Feng Qin Li, Yue Yi, Cheng Dong Wang, De Sheng Li, Ling Zhu, Feng Gu, Cheng Dong Wang, De Sheng Li
Materials and methods
A.
Li, "The saving of giant panda," Published by Sichuan Science and Technology Publishing Company, pp. 113-129, 2000.
FIERS, "Cloning and expression of the canine interferon-γ gene," Journal of interferon research, vol. 12, pp. 95-102, 1992
[22] G. von Heijne, "The signal peptide," Journal of Membrane Biology, vol. 115, pp. 195-201, 1990
," Toxicological Sciences, vol. 55, p. 235, 2000
Li, "The saving of giant panda," Published by Sichuan Science and Technology Publishing Company, pp. 113-129, 2000.
FIERS, "Cloning and expression of the canine interferon-γ gene," Journal of interferon research, vol. 12, pp. 95-102, 1992
[22] G. von Heijne, "The signal peptide," Journal of Membrane Biology, vol. 115, pp. 195-201, 1990
," Toxicological Sciences, vol. 55, p. 235, 2000
Online since: October 2015
Authors: Mark Jermy, Tze How New, Tim Flint, Wei Hua Ho
References
x
[1]
Y X Chan, G C Koh, M C Hoang, S Shi, and TH New, "Effects of Corrugate Aerofoil Surface Features on Flow-Separation Control," AIAA Journal, vol. 52, no. 1, pp. 206-211, 2014.
[2]
F R Menter, Best Practice: Scale-Resolving Simulations in ANSYS CFD Version 1.02.
Gemany: ANSYS, 2012, vol. 32. [3] F R Menter and Y Egorov, "Scale-Adaptive Simulation Method for Unsteady Flow Predictions Part 1: Theory and Model Description," Flow, Turnulence and Combustion, vol. 85, no. 1, pp. 113-138, 2010. [4] Jiri Vondal and Jiri Hajek, "Comparison of SAS turbulence model to the SST K-w in non-premixed combustion simulation," in 14th European Turbulence Conference, Lyon, 2013. [5] T H New, Y X Chan, G C Koh, H M Chung, and S Shi, "Effects of Corrugate Aerofoil Surface Features on Flow-Separation Control," AIAA Journal, vol. 52, no. 1, pp. 206-211, 2014. [6] J C Nawroth et al., "A tissue-engineered jellyfish with biomimetic propulsion," Nature Biotechnology, no. 30, pp. 792-797, 2012. [7] D E Alexander, "Unusual Phase Relationships Between The Forewings and Hindwings in Flying Dragonflies," Journal of Experimental Biology, vol. 109, pp. 379-383, 1984. [8] C Hefler, H Qiu, and W Shyy, "The Interaction of Wings in Different Flight Modes of a Dragonfly," in 17th International
Kinematics and Aerodynamics.," in Swimming and Flying in Nature.: 763-781, 1975. [12] C J C Rees, "Form and Function in Corrugated Insect Wings," Nature, vol. 256, pp. 200-203, 1975. [13] G Ruppell, "Kinematic Analysis of Symmetrical Flight Manoeuvres of Odonata," Journal of Experimental Biology, vol. 144, pp. 13-42, 1989. [14] A L R Thomas, G K Taylor, R B Srygley, R L Nudds, and R J Bomphrey, "Dragonfly Flight: Free-Flight and Tethered Flow Visualizations Reveal a Diverse Array of Unsteady Lift-Generating Mechanisms, Controlled Primarily via Angle of Attack," Journal of Experimental Biology, vol. 207, pp. 4299-4323, 2004. [15] J M Wakeling and C P Ellington, "Dragonfly Flight I Gliding Flight and Steady-State Aerodynamics," Journal of Experimental Biology, vol. 200, pp. 543-556, 1997. [16] J M Wakeling and C P Ellington, "Dragonfly Flight III Lift and Power Requirements," Journal of Experimental Biology, vol. 200, pp. 583-600, 1997. [17] Z J Wang, "Dragonfly Flight," Physics Today, vol
. 61, no. 10, pp. 74-75, 2008. [18] D-E Levy and A Seifert, "Simplified dragonfly airfoil aerodynamics at Reynolds numbers below 8000," Physics of Fluids, vol. 21, 2009. [19] Z Zhou, C Li, J B Nie, and Y Chen, "Effect of oscillation frequency on wind turbine airfoil dynamic stall," Materials Science and Engineering, vol. 52, pp. 1-5, 2013. [20] K Lu, Y H Xie, D Zhang, and J B Lan, "Numerical investigations into the asymmetric effects on the aerodynamic response of a pitching airfoil," Journal of Fluids and Sturctures, no. 76-86, p. 39, 2013. [21] J Panda and K B M Q Zaman, "Experimental Investigation of the flowfield of an oscillating airfoil," in 10th AIAA Applied Aerodynamics Conference, 1992. [22] T Lee, "Flow past two in-tandem airfoils undergoing sinusoidal oscillations," Experiments in Fluids, vol. 51, no. 6, pp. 1605-1621, 2011. [23] Hui Hu and Masatoshi Tamai, "Bioinspired corrugated airfoil at low Reynolds numbers," Journal of Aircraft, vol. 45, no. 6, pp. 2068-2077, 2008. [24]
Michelle Kwok and Rajat Mittal, "Experimental Investigation of the Aerodyanmics of a Modeled Dragonfly Wing Section," in AIAA region I-MA Student Conference Charlottesville, Virginia, 2005. [25] Jeffrey Murphy and Hui Hu, "An Experimental Investigation on a Bio-inspired Corrugated Airfoil," in 47th AIAA Aerospace Sciences Meeting and Exhibit, Orlando, 2009. x
Gemany: ANSYS, 2012, vol. 32. [3] F R Menter and Y Egorov, "Scale-Adaptive Simulation Method for Unsteady Flow Predictions Part 1: Theory and Model Description," Flow, Turnulence and Combustion, vol. 85, no. 1, pp. 113-138, 2010. [4] Jiri Vondal and Jiri Hajek, "Comparison of SAS turbulence model to the SST K-w in non-premixed combustion simulation," in 14th European Turbulence Conference, Lyon, 2013. [5] T H New, Y X Chan, G C Koh, H M Chung, and S Shi, "Effects of Corrugate Aerofoil Surface Features on Flow-Separation Control," AIAA Journal, vol. 52, no. 1, pp. 206-211, 2014. [6] J C Nawroth et al., "A tissue-engineered jellyfish with biomimetic propulsion," Nature Biotechnology, no. 30, pp. 792-797, 2012. [7] D E Alexander, "Unusual Phase Relationships Between The Forewings and Hindwings in Flying Dragonflies," Journal of Experimental Biology, vol. 109, pp. 379-383, 1984. [8] C Hefler, H Qiu, and W Shyy, "The Interaction of Wings in Different Flight Modes of a Dragonfly," in 17th International
Kinematics and Aerodynamics.," in Swimming and Flying in Nature.: 763-781, 1975. [12] C J C Rees, "Form and Function in Corrugated Insect Wings," Nature, vol. 256, pp. 200-203, 1975. [13] G Ruppell, "Kinematic Analysis of Symmetrical Flight Manoeuvres of Odonata," Journal of Experimental Biology, vol. 144, pp. 13-42, 1989. [14] A L R Thomas, G K Taylor, R B Srygley, R L Nudds, and R J Bomphrey, "Dragonfly Flight: Free-Flight and Tethered Flow Visualizations Reveal a Diverse Array of Unsteady Lift-Generating Mechanisms, Controlled Primarily via Angle of Attack," Journal of Experimental Biology, vol. 207, pp. 4299-4323, 2004. [15] J M Wakeling and C P Ellington, "Dragonfly Flight I Gliding Flight and Steady-State Aerodynamics," Journal of Experimental Biology, vol. 200, pp. 543-556, 1997. [16] J M Wakeling and C P Ellington, "Dragonfly Flight III Lift and Power Requirements," Journal of Experimental Biology, vol. 200, pp. 583-600, 1997. [17] Z J Wang, "Dragonfly Flight," Physics Today, vol
. 61, no. 10, pp. 74-75, 2008. [18] D-E Levy and A Seifert, "Simplified dragonfly airfoil aerodynamics at Reynolds numbers below 8000," Physics of Fluids, vol. 21, 2009. [19] Z Zhou, C Li, J B Nie, and Y Chen, "Effect of oscillation frequency on wind turbine airfoil dynamic stall," Materials Science and Engineering, vol. 52, pp. 1-5, 2013. [20] K Lu, Y H Xie, D Zhang, and J B Lan, "Numerical investigations into the asymmetric effects on the aerodynamic response of a pitching airfoil," Journal of Fluids and Sturctures, no. 76-86, p. 39, 2013. [21] J Panda and K B M Q Zaman, "Experimental Investigation of the flowfield of an oscillating airfoil," in 10th AIAA Applied Aerodynamics Conference, 1992. [22] T Lee, "Flow past two in-tandem airfoils undergoing sinusoidal oscillations," Experiments in Fluids, vol. 51, no. 6, pp. 1605-1621, 2011. [23] Hui Hu and Masatoshi Tamai, "Bioinspired corrugated airfoil at low Reynolds numbers," Journal of Aircraft, vol. 45, no. 6, pp. 2068-2077, 2008. [24]
Michelle Kwok and Rajat Mittal, "Experimental Investigation of the Aerodyanmics of a Modeled Dragonfly Wing Section," in AIAA region I-MA Student Conference Charlottesville, Virginia, 2005. [25] Jeffrey Murphy and Hui Hu, "An Experimental Investigation on a Bio-inspired Corrugated Airfoil," in 47th AIAA Aerospace Sciences Meeting and Exhibit, Orlando, 2009. x
Online since: August 2013
Authors: Yi Zheng
Introduction
Railway bridge structures of the long-term bear train dynamic load, while material aging and environmental disasters that may occur, all of these cause the structure of the internal and the surface of various defects, structural damage accumulation and carrying capacity to decline, affecting the normal use of the structure.
References [1] XIA He, ZHANG Na: The vehicle interacts with structure driving force (Science Press, China 2005) [2] The Ministry of Railways of PRC: The Railway Bridge calibration codes (Chinese railroad press, China 2004) [3] ZHAN Jiawang.
XIA He: Impact Vibration Test Method for Identifying the Natural Vibration Frequency of Piers with Middle and Low Heights, China Railway Science, China 2008 [4] ZHAN Jiawan: Soundness Evaluation and Experiment Method Studies on Existing Railway Piers, Beijing Jiaotong University, China 2006 [5] Computers and Structures, inc: Dynamics of structures, 2003 [6] ZHAN Jia-wang, XIA He, YAO Jin-bao: An Impact Vibration Test Method for Measuring Natural Frequencies of Existing Piers, Journal of Beijing Jiaotong University, China 2005 [7] WU Ding-jun.
XIANG Hai-fan: Effects of pier design on superstructure vibration, Journal of The China Railway Society, China 2002
References [1] XIA He, ZHANG Na: The vehicle interacts with structure driving force (Science Press, China 2005) [2] The Ministry of Railways of PRC: The Railway Bridge calibration codes (Chinese railroad press, China 2004) [3] ZHAN Jiawang.
XIA He: Impact Vibration Test Method for Identifying the Natural Vibration Frequency of Piers with Middle and Low Heights, China Railway Science, China 2008 [4] ZHAN Jiawan: Soundness Evaluation and Experiment Method Studies on Existing Railway Piers, Beijing Jiaotong University, China 2006 [5] Computers and Structures, inc: Dynamics of structures, 2003 [6] ZHAN Jia-wang, XIA He, YAO Jin-bao: An Impact Vibration Test Method for Measuring Natural Frequencies of Existing Piers, Journal of Beijing Jiaotong University, China 2005 [7] WU Ding-jun.
XIANG Hai-fan: Effects of pier design on superstructure vibration, Journal of The China Railway Society, China 2002
Online since: January 2010
Authors: Ou Yang Yi
A novel human pose detection from videos algorithm based on motion
capture data
Ouyang Yi1, 2,a
1
College of Computer Science and Technology, Zhejiang University
Hangzhou,China, 310027
2
College of Computer and Information Engineering, Zhejiang Gongshang University
Hangzhou, Zhejiang 310035, China
a
jason_hi@163.coml
Keywords: video processing, background modeling, Bayes model, template matching .
To quantify this, we estimated the error rate on the two movies supplied with the paper as supplementary material.
Acknowledgment This work is supported by the Science and Technology Department of Zhejiang Province in China No. 2008C24012 and 2008C21078.
Journal of the Royal Statistical Society, Series B, 51(2):271-279, 1989
International Journal of Computer Vision, 16(1), 2005
To quantify this, we estimated the error rate on the two movies supplied with the paper as supplementary material.
Acknowledgment This work is supported by the Science and Technology Department of Zhejiang Province in China No. 2008C24012 and 2008C21078.
Journal of the Royal Statistical Society, Series B, 51(2):271-279, 1989
International Journal of Computer Vision, 16(1), 2005
Online since: November 2011
Authors: Xiao Ting Li, Li De Fang, Ji Ke Zhang, Xiu Ming Xiang
However, in the experiment, the output form is voltage, the influence of temperature is very high to semiconductor material, the temperature of constant temperature trough is changing with ambient temperature from time to time, according to Ohm's law known, the output voltage will change from time to time, which explains the fluctuation in AD590 curve.
By amendment, the value of the obtain time constant is shortened in the range of 10~ 40s Aknowledgement This work supported by the National Natural Science Foundation of China(61074174 and 60677021), Natural Science Foundation of Hebei University(Y2009169) Reference [1] Liu Jiashu, Li Qiang, Fu Tao.
A real-time solution for time-constant of thermoelement [J].Journal of Huanggang Normal Universirt, 2001, 21(5): 50~51 [4] Zhang Cunfang, Li Xiufen,Xue Xiong. measuring time constant of thermal sensor [J].Journal of Astronautic Metrology and Measurement, 1999, 19 (02) [5] Liu Zhenquan.Integration Temperature Sensor AD590 and Application [J].sensor world,2003:35~37 [6] Doebelin E O.
By amendment, the value of the obtain time constant is shortened in the range of 10~ 40s Aknowledgement This work supported by the National Natural Science Foundation of China(61074174 and 60677021), Natural Science Foundation of Hebei University(Y2009169) Reference [1] Liu Jiashu, Li Qiang, Fu Tao.
A real-time solution for time-constant of thermoelement [J].Journal of Huanggang Normal Universirt, 2001, 21(5): 50~51 [4] Zhang Cunfang, Li Xiufen,Xue Xiong. measuring time constant of thermal sensor [J].Journal of Astronautic Metrology and Measurement, 1999, 19 (02) [5] Liu Zhenquan.Integration Temperature Sensor AD590 and Application [J].sensor world,2003:35~37 [6] Doebelin E O.
Online since: March 2014
Authors: Chih Ming Chen, Chin Huang Sun
The copper material was brass C3604 which meet the requirements of the environment protection, and comply with the European RoHS standard.
Acknowledgements The research was supported by National Science Council of the Republic of China.
Barber : Journal of Pressure, 2007
Gafitanu: Interational Journal on the Science and Technology of Friction, Lubrication and Wear, Vol. 211(1)(1997), P. 22
Acknowledgements The research was supported by National Science Council of the Republic of China.
Barber : Journal of Pressure, 2007
Gafitanu: Interational Journal on the Science and Technology of Friction, Lubrication and Wear, Vol. 211(1)(1997), P. 22
Online since: December 2011
Authors: Bo Yang, Wei He, Gui Shan Liu, Ze Sheng Zhang
The antioxidant resveratrol from Polygonum cuspidatum reverses memory impairment and brain oxidative stress in SAMP8 mice
GuiShanLiu1,2,a, ZeShengZhang1,b, BoYang2,c and WeiHe1,d
1Key Laboratory of Food Nutrition and Safety, Ministry of Education, Tianjin University of Science & Technology, Tianjin,300457,China
2Department of Food Science, Ningxia University, Ningxia,750021, China
aguishanliu2008@sina.com,bzhangzesheng@tust.edu.cn,cbo_yang1983@163.com,
dsyghfe@sina.com
Keywords: Resveratrol, learning and Memory Impairment, Open-field Test, Oxidative Stress, SOD, MDA
Abstract.Resveratrol (RVT) is a phytoalexin polyphenolic compound found in various plants, including grapes, berries and peanuts.
Material and methods Chemicals and reagents Resveratrol (purity≥97%) was purchased from Tianjin Jianfeng Natural Product Cooperation limited (Tianjin, China).Commercial kits used for determination of SOD and MDA were purchased from Nanjing Jiancheng Institute of Biological Engineering (Nanjing,China).
International Journal of Developmental Neuroscience.Vol.18(4–5) (2000), p.367 [2] Launer LJ, Kalmijn S.
Journal of Neural Transmission.Vol.53(1998),p.1 [3] Simic, M.G..
Material and methods Chemicals and reagents Resveratrol (purity≥97%) was purchased from Tianjin Jianfeng Natural Product Cooperation limited (Tianjin, China).Commercial kits used for determination of SOD and MDA were purchased from Nanjing Jiancheng Institute of Biological Engineering (Nanjing,China).
International Journal of Developmental Neuroscience.Vol.18(4–5) (2000), p.367 [2] Launer LJ, Kalmijn S.
Journal of Neural Transmission.Vol.53(1998),p.1 [3] Simic, M.G..
Online since: October 2010
Authors: Xue Feng Wang, Chuan Tong Sun, Hong Jiang Sun
High-speed Milling Toolpath Planning for Aviation Engines Impeller Using POWERMILL Software
Wang Xufeng1,a, Sun Chuantong 1,b and Sun Hong-jiang2,c
1Modern Manufacture Engineering Center of Heilongjiang University of Science & Technology, Harbin, Heilongjiang Province, China
2Institute of Mechanical Engineering of Heilongjiang University of Science & Technology, Harbin, Heilongjiang Province, China
along0451@tom.com, bsct760219@163.com, csunhongjiang@163.com
Keyword: high-speed milling, toolpath, impeller, machining process.
The processing program is determined according the geometry feature, difficulties of machining and requirement of using as follows: (1) Turn the forging material into basic shape of impeller. (2) Rough machining the hub. (3) Finish machining the hub. (4) Finishing machining the blade. (5) Clean-up Machining.
Ju: International Journal of Production ResearchVol.37 (1999) No.16 p. 3659-3669
Z.Yu: Chinese Journal of Aeronautics Vol. 21 (2008) No.5, p. 462-471
The processing program is determined according the geometry feature, difficulties of machining and requirement of using as follows: (1) Turn the forging material into basic shape of impeller. (2) Rough machining the hub. (3) Finish machining the hub. (4) Finishing machining the blade. (5) Clean-up Machining.
Ju: International Journal of Production ResearchVol.37 (1999) No.16 p. 3659-3669
Z.Yu: Chinese Journal of Aeronautics Vol. 21 (2008) No.5, p. 462-471
Online since: February 2011
Authors: Feng Jiao, Chong Yang Zhao, Xiong Zhang, Xiang Liu
In order to analyze the surface micro-geometrical characteristics of hard turning more directly and comprehensively, the 45 quenched steel was chosen as experimental material, and a series of comparative experiments were carried out in the paper.
Acknowledgments The paper is sponsored by National Natural Science Foundation of China (No. 51075127), Program for Science &Technology Innovation Talents in Universities of Henan Province (No. 2010HASTIT031) and Henan Provincial Key Discipline.
Journal of Harbin Institute of Technology, Vol. 34 (2002), No. 4, p.47-49 (In Chinese)
Journal of South China University of Technology, Vol.32 (2004), No.10, p.99-101(In Chinese)
Acknowledgments The paper is sponsored by National Natural Science Foundation of China (No. 51075127), Program for Science &Technology Innovation Talents in Universities of Henan Province (No. 2010HASTIT031) and Henan Provincial Key Discipline.
Journal of Harbin Institute of Technology, Vol. 34 (2002), No. 4, p.47-49 (In Chinese)
Journal of South China University of Technology, Vol.32 (2004), No.10, p.99-101(In Chinese)