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Online since: July 2011
Authors: Feng Hua Bai, Li Ping Zhang, Hai Quan Su, Lei Zhang, Shang Hong Zeng
Introduction
The crystal engineering of metal complexes, especially coordination polymers built up from metal ions and organic ligands, has attracted special attention due to their versatile architectures and the most used materials in ion exchange, luminescent sensors, heterogeneous catalysis, molecular recognition and magnetic properties [1-5].
Acknowledgements The authors would like to acknowledge the National Natural Science Foundation of China (grant no. 20661001, 21061008), the Key grant of Inner Mongolia Natural Science Foundation of China (grant no. 2010ZD07) and Scientific Research Foundation for Advanced Talents of Inner Mongolia University (grant no. 208142).
Cheng: International Journal of hydrogen energy (2010), p. 1
Bu: Journal of Molecular Structure Vol. 798 (2006), p. 34
Acknowledgements The authors would like to acknowledge the National Natural Science Foundation of China (grant no. 20661001, 21061008), the Key grant of Inner Mongolia Natural Science Foundation of China (grant no. 2010ZD07) and Scientific Research Foundation for Advanced Talents of Inner Mongolia University (grant no. 208142).
Cheng: International Journal of hydrogen energy (2010), p. 1
Bu: Journal of Molecular Structure Vol. 798 (2006), p. 34
Online since: November 2010
Authors: Wouter de Corte, Veerle Boel
Fatigue properties of dynamically loaded self-compacting concrete
Wouter De Corte1,2,a,b and Veerle Boel1,2,c,d
1
Department of Structural Engineering, Faculty of Engineering Sciences, Ghent University,
Technologiepark 904, 9052 Ghent, Belgium
2
Department of Construction, Faculty of Applied Engineering Sciences, University College Ghent,
Schoonmeersstraat 52, 9000 Ghent, Belgium
a
Wouter.DeCorte@UGent.be, bWouter.DeCorte@HoGent.Be, cVeerle.Boel@UGent.be,
d
Veerle.Boel@HoGent.be
Keywords: fatigue; self-compacting concrete; experimental tests; failure; S-N curve
Abstract.
Introduction Fatigue loading of concrete elements induces irreversible and progressive damage into the concrete material.
However, more fundamental knowledge regarding the fatigue behaviour of SCC is needed in order to use this promising material in structures subjected to dynamic loads.
Kishen, Prediction of fatigue strength in plain and reinforced concrete beams, ACI structural journal 104/5 (2007), pp.621-628 [2] Eurocode EN 1992-1-1: Design of concrete structures: General Rules and Rules for Buildings, CEN, Brussels, Belgium (2003) [3] EN 206-1: Concrete-Part 1: Specification, performance, production and conformity, CEN, Brussels, Belgium (2000) [4] L.
Mancini, Fatigue Behaviour Simulation of Bridge Deck Repaired with Self Compacting Concrete, Journal of Advanced Concrete Technology, 7/3 (2009), pp. 415-424 [5] G.
Introduction Fatigue loading of concrete elements induces irreversible and progressive damage into the concrete material.
However, more fundamental knowledge regarding the fatigue behaviour of SCC is needed in order to use this promising material in structures subjected to dynamic loads.
Kishen, Prediction of fatigue strength in plain and reinforced concrete beams, ACI structural journal 104/5 (2007), pp.621-628 [2] Eurocode EN 1992-1-1: Design of concrete structures: General Rules and Rules for Buildings, CEN, Brussels, Belgium (2003) [3] EN 206-1: Concrete-Part 1: Specification, performance, production and conformity, CEN, Brussels, Belgium (2000) [4] L.
Mancini, Fatigue Behaviour Simulation of Bridge Deck Repaired with Self Compacting Concrete, Journal of Advanced Concrete Technology, 7/3 (2009), pp. 415-424 [5] G.
Online since: January 2016
Authors: Sorin Dumitru, Viorel Stoian
Hyper-redundant end-effector
(12)
where density of the material, A - section of the terminal, M - mass of the upper side of the terminal (including the transported load), E - modulus of elasticity, r - cylinder radius, q – generalized distributed variable vector, ; ; ; ; ; - distributed torque along the tentacular structure.
Seward, Development of a Multi-Arm Mobile Robot for Nuclear Decommissioning Tasks, International Journal of Advanced Robotic Systems, ISSN 1729-8806, Vol. 4, 4 (2007) 387-406
Chun, Development of a new 5 dof mobile robot arm and its motion control system, Journal of Mechanical Science and Technology, Vol. 20, 8 (2006) 1159-1168
Westhoff, „Autonomous Navigation and Control of a Mobile Robot in a Cell Culture Laboratory”, Technical Computer Science, Faculty of Technology University of Bielefeld, Germany, 2002
[17] Information on http://mars.nasa.gov/msl/ [18] Information on http://www.space.com/17963-mars-curiosity.html [19] Information on http://www.generationrobots.com/en/402093-kuka-youbot-robot-mobile-omni-directionel-avec-bras.html [20] Information on http://www.willowgarage.com/pages/pr2/overview [21] Information on http://www.rcs.hu/roboshop/hProfessional.htm [22] Information on http://www.openrobots.org/morse/material/media/pdf/BC_morse.pdf [23] Information on https://www.facebook.com/MarsCuriosity [24] Information on http://www.clearpathrobotics.com/jaco/ [25] Information on http://developer.mbed.org/users/bedlou/notebook/magician-mobile-robot-arm/
Seward, Development of a Multi-Arm Mobile Robot for Nuclear Decommissioning Tasks, International Journal of Advanced Robotic Systems, ISSN 1729-8806, Vol. 4, 4 (2007) 387-406
Chun, Development of a new 5 dof mobile robot arm and its motion control system, Journal of Mechanical Science and Technology, Vol. 20, 8 (2006) 1159-1168
Westhoff, „Autonomous Navigation and Control of a Mobile Robot in a Cell Culture Laboratory”, Technical Computer Science, Faculty of Technology University of Bielefeld, Germany, 2002
[17] Information on http://mars.nasa.gov/msl/ [18] Information on http://www.space.com/17963-mars-curiosity.html [19] Information on http://www.generationrobots.com/en/402093-kuka-youbot-robot-mobile-omni-directionel-avec-bras.html [20] Information on http://www.willowgarage.com/pages/pr2/overview [21] Information on http://www.rcs.hu/roboshop/hProfessional.htm [22] Information on http://www.openrobots.org/morse/material/media/pdf/BC_morse.pdf [23] Information on https://www.facebook.com/MarsCuriosity [24] Information on http://www.clearpathrobotics.com/jaco/ [25] Information on http://developer.mbed.org/users/bedlou/notebook/magician-mobile-robot-arm/
Online since: August 2011
Authors: Fumiya Yamaga, Kazuya Yamamura, Mikinori Nagano, Nobuyuki Zettsu, Dai Yamazaki, Ryuji Maruyama, Kazuhiko Soyama, Kenta Yamasaki
Evaluation of Surface Roughness of Quartz Glass Substrate
in Fabrication Process for Neutron Focusing Mirror
Mikinori Nagano1, a, Fumiya Yamaga1, Kenta Yamasaki1, Nobuyuki Zettsu1,
Dai Yamazaki2, Ryuji Maruyama2, Kazuhiko Soyama2
and Kazuya Yamamura1, b
1Research Center for Ultra-precision Science and Technology, Graduate School of Engineering, Osaka University, 2-1, Yamadaoka, Suita, Osaka 565-0871, Japan
2J-PARC Center, Japan Atomic Energy Agency, 2-4 Tokai, 319-1195, Japan
am-nagano@div1.upst.eng.osaka-u.ac.jp, byamamura@upst.eng.osaka-u.ac.jp
Keywords: aspherical, numerically control, neutron, focusing, supermirror, low pressure polishing, CeO2, HF, etching, quartz glass, roughness
Abstract.
In NC-LWE figuring, no subsurface damage occurs because the substrate material is removed by the chemical reaction between the etchant and the material at the surface of the mirror.
Acknowledgements This work was partially supported by Grant-in-Aid for JSPS Fellows, a grant for “Development of System and Technology for Advanced Measurement and Analysis (SENTAN)” from Japan Science and Technology Agency (JST) and the “Industrial Technology Research Grant Program in 2005” from the New Energy and Industrial Technology Development Organization (NEDO) of Japan.
Kline, Journal of Applied Crystallography 38(2005)979
Shimizu,Journal of Physics: Conference Series 251(2010) 012078
In NC-LWE figuring, no subsurface damage occurs because the substrate material is removed by the chemical reaction between the etchant and the material at the surface of the mirror.
Acknowledgements This work was partially supported by Grant-in-Aid for JSPS Fellows, a grant for “Development of System and Technology for Advanced Measurement and Analysis (SENTAN)” from Japan Science and Technology Agency (JST) and the “Industrial Technology Research Grant Program in 2005” from the New Energy and Industrial Technology Development Organization (NEDO) of Japan.
Kline, Journal of Applied Crystallography 38(2005)979
Shimizu,Journal of Physics: Conference Series 251(2010) 012078
Online since: June 2014
Authors: Dong Yuan, Da You Fu, Xiao Fang Zhang, Xin Zhao
Fast detection of illegal sweeteners in liquor and wine by laser Raman spectroscopy
Da-you Fu a, Dong Yuanb, Xiao-fang Zhangc and Xin Zhaod
College of Material and Chemical Engineering, Sichuan University of Science and Engineering, Sichuan Zigong643000, China
afdy888@263.net, byuandong68@126.com, c446250525@qq.com, dzhaoxinzhaowuben@163.com
Keywords: Sweeteners, Qualitative Analysis, Micro-Laser Raman, Liquor and Wine
ABSTRACT.
Raman spectrometry has been strongly applied in studying the composition and structure of material[1-5].
Seetharaman, Characterisation of irradiated starches by using FT-Raman and FTIR spectroscopy, Journal of Agricultural and Food Chemistry 50(2002)3912–3918 [5] R.A.
Brooks, Analysis of nickel(II) in particulate matter by Raman microspectroscopy, Journal of Aerosol Science 67(2014)207-214 [12] Agata Zygler, Andrzej Wasik, Jacek Namiesnik, Analytical methodologies for determination of artificial sweeteners in foodstuffs, Trends in Analytical Chemistry 28(2009)1082-1102 [13] Capitán-Vallvey, L.
Raman spectrometry has been strongly applied in studying the composition and structure of material[1-5].
Seetharaman, Characterisation of irradiated starches by using FT-Raman and FTIR spectroscopy, Journal of Agricultural and Food Chemistry 50(2002)3912–3918 [5] R.A.
Brooks, Analysis of nickel(II) in particulate matter by Raman microspectroscopy, Journal of Aerosol Science 67(2014)207-214 [12] Agata Zygler, Andrzej Wasik, Jacek Namiesnik, Analytical methodologies for determination of artificial sweeteners in foodstuffs, Trends in Analytical Chemistry 28(2009)1082-1102 [13] Capitán-Vallvey, L.
Online since: June 2011
Authors: Bao Feng Zhang, Xiao Long Zhang, Xiao Juan Wu
Jiang: Chemical Engineering Science, Vol. 66 (2011), p. 1087-1099
Pan: Journal of Iron and Steel Research, Vol. 16 (2009), p. 1-6
Yue: Advanced Materials Research, Vol. 139-141(2010), p. 2532-2536
Zuhain: Lecture Notes in Computer Science, Vol. 5589 (2010), p. 421-428
Gharehpetian: Journal of Intelligent and Fuzzy Systems, Vol. 20 (2009), p. 133-146
Pan: Journal of Iron and Steel Research, Vol. 16 (2009), p. 1-6
Yue: Advanced Materials Research, Vol. 139-141(2010), p. 2532-2536
Zuhain: Lecture Notes in Computer Science, Vol. 5589 (2010), p. 421-428
Gharehpetian: Journal of Intelligent and Fuzzy Systems, Vol. 20 (2009), p. 133-146
Online since: October 2011
Authors: Hong Wu, Shuo Zhang, Hao Chen, Li Zhang, Yan Jue Gong
Lab Signature
Zhang Li1, a, Chen Hao1, b, Gong Yanjue1, c, Wu Hong1, d and Zhang Shuo1, e
1school of Material & Mechanical Engineering,
Beijing Technology and Business University, Beijing, China
azhangli@th.btbu.edu.cn, bhaoz.chen@foxmail.com, cyjgong@th.btbu.edu.cn, dwhdx1234@163.com, emyselfshuo@yahoo.com.cn
Keywords: Isolation Performance Evaluation; Compressor; Vibration Isolating System; LMS Test.
Isolators are chosen from a domestic brand’s ZT Series of damping spring vibration isolator, which is composed of spiral spring, damping material, upper and lower shell body and rubber friction tablets.
Journal of Beijing technology and business university (natural science edition), 2010, 28(6):36-41
Journal of Beijing technology and business university (natural science edition), 2011, 29(4):42-48
Isolators are chosen from a domestic brand’s ZT Series of damping spring vibration isolator, which is composed of spiral spring, damping material, upper and lower shell body and rubber friction tablets.
Journal of Beijing technology and business university (natural science edition), 2010, 28(6):36-41
Journal of Beijing technology and business university (natural science edition), 2011, 29(4):42-48
Online since: February 2014
Authors: He Jiang, Yu Li Wang, Jian Fang Shan, Xiu Mei Luan
Using the built-in browser WebView download learning materials in the specified storage location.
Acknowledgement This work is supported by the projects of Shandong Province Higher Educational Science and Technology Program (No.J13LN02) and Shandong Province Nature Science Foundation (No.
Journal of Huaihai Institute of Technology,2008,17(4)
International Journal of Digital Content Technology and its Applications, 2012, 6(18) 98-105
Acknowledgement This work is supported by the projects of Shandong Province Higher Educational Science and Technology Program (No.J13LN02) and Shandong Province Nature Science Foundation (No.
Journal of Huaihai Institute of Technology,2008,17(4)
International Journal of Digital Content Technology and its Applications, 2012, 6(18) 98-105
Online since: December 2014
Authors: Yan Li Zhou
In addition, high strength and light weight materials should be used, if the mass of tractor will reduce by 50%, the soil compaction could be reduced by 15% -30%
Acknowledgment This work was financially supported by Natural Science Foundation of Heilongjiang province (201239) and the project of sciences and technology of Education Department of Heilongjiang province (12541636).
Journal of Agricultural Mechanization Research.
Journal of Agricultural Mechanization Research.No.10,(2011) p143-146 ( in Chinese) [6] Mosaddeghi, M.R., Hajabbasi, M.A., Hemmat, A.
Acknowledgment This work was financially supported by Natural Science Foundation of Heilongjiang province (201239) and the project of sciences and technology of Education Department of Heilongjiang province (12541636).
Journal of Agricultural Mechanization Research.
Journal of Agricultural Mechanization Research.No.10,(2011) p143-146 ( in Chinese) [6] Mosaddeghi, M.R., Hajabbasi, M.A., Hemmat, A.