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Shear Distribution Coefficient Study of New Inland Large-Head Wharf Structure under Horizontal Force
Online since: January 2013
Authors: Xiao Ping Liu, Kai Ming Zou
According to the geological exploration data, the material parameters as shown in the following table.
This contact surface unit considers followed factors in a more accurate manner: (1) maximum frictional resistance of the pile-soil surface is actually controlled by , of pile-soil materials, and is relevant to scales of lateral soil pressure; (2) exerting of frictional force of pile-soil interface is relevant to relative displacement between pile and soil.
Journal of Waterway and Harboring, 2010,31(2):132-137
Sichuan Building Science, 2009,35(2):131-134
Journal of Waterway and Harboring, 2009,30(3):201-205
This contact surface unit considers followed factors in a more accurate manner: (1) maximum frictional resistance of the pile-soil surface is actually controlled by , of pile-soil materials, and is relevant to scales of lateral soil pressure; (2) exerting of frictional force of pile-soil interface is relevant to relative displacement between pile and soil.
Journal of Waterway and Harboring, 2010,31(2):132-137
Sichuan Building Science, 2009,35(2):131-134
Journal of Waterway and Harboring, 2009,30(3):201-205
Online since: August 2013
Authors: Kei Mei Hu, Wei Ling Liu, Jing Hai Zhu, Lin Wang, Lin Bo Zhang, Zhong Qiang Ma
Study on Ecological Carbon Sink Regionalization of Land Use in Shenzhen City
Kemei Hu1, Weiling Liu2, 3, a, Jinghai Zhu1, Lin Wang1, Linbo Zhang2, 3, Zhongqiang Ma1
1College of Environmental Science and Engineering, Dalian Maritime University, Dalian 116025, China
2Chinese Research Academy of Environmental Sciences, Beijing, 100012, China
3State Environmental Protection Key Laboratory of Regional Ecological Processes and Functions Assessment, Beijing 100012, China
acsy656@163.com
Key words: Land Use, Ecological Carbon Sink Regionalization, Shenzhen City.
Finally, combined with the administrative division, the natural geographical background and human impact factors, as well as Shenzhen Ecological City Construction Plan (2006-2020), Shenzhen General Urban Layout (2007-2020), and maps materials, such as agriculture and forestry survey data, the comprehensive analysis of multi-factor spatial overlay is conducted to determine whether the dominant ecological carbon sources/sinks function of each functional area is strong or weak, and divide the regional ecological carbon sources/sinks.
Advanced Materials Research Journal.
Journal of Ecological Science, Vol. 30(5) (2011), p. 486-492.
Finally, combined with the administrative division, the natural geographical background and human impact factors, as well as Shenzhen Ecological City Construction Plan (2006-2020), Shenzhen General Urban Layout (2007-2020), and maps materials, such as agriculture and forestry survey data, the comprehensive analysis of multi-factor spatial overlay is conducted to determine whether the dominant ecological carbon sources/sinks function of each functional area is strong or weak, and divide the regional ecological carbon sources/sinks.
Advanced Materials Research Journal.
Journal of Ecological Science, Vol. 30(5) (2011), p. 486-492.
Online since: May 2013
Authors: Lin Lin Wang, Xiao Ming Wang, Wei Zeng Chen, Ning Li
., Science, vol. 295(2002), p. 654
[7] C.C.Hu, C.Y.Weng, J.
Materials Science and Engineering A: vol. 397 (2005), p.288 [11] G.J.Houben, F.Wagner., Applied Geochemistry, vol.22 (2007), p. 2029 [12]Bogdan C.
Applied Surface Science vol. 253(2007), p. 7369 [14]Tetsuo Oishi, Kazuya Koyama, Hirokazu Konishi, et al.
Electrochimica Acta, vol. 53(2007), p. 127 [15]Pamela Eberspächer, Erwin Wismeth, Richard Buchner, et al., Journal of Molecular Liquids, vol. 129(2006), p. 3 [16] Yue Zeng, Ming Ma, Xiaoming Xiao, et al., Chinese Journal of Chemistry, vol. 18(2000), p.29 [17] Zhong-cheng Guo, Rui-dong Xu, Ji-kung Wang., Transactions of materials and heat treatment proceedings of the 14TH IFHTSE Congress, 25(2004), p.1130 [18]Luciana S.
Materials Science and Engineering A: vol. 397 (2005), p.288 [11] G.J.Houben, F.Wagner., Applied Geochemistry, vol.22 (2007), p. 2029 [12]Bogdan C.
Applied Surface Science vol. 253(2007), p. 7369 [14]Tetsuo Oishi, Kazuya Koyama, Hirokazu Konishi, et al.
Electrochimica Acta, vol. 53(2007), p. 127 [15]Pamela Eberspächer, Erwin Wismeth, Richard Buchner, et al., Journal of Molecular Liquids, vol. 129(2006), p. 3 [16] Yue Zeng, Ming Ma, Xiaoming Xiao, et al., Chinese Journal of Chemistry, vol. 18(2000), p.29 [17] Zhong-cheng Guo, Rui-dong Xu, Ji-kung Wang., Transactions of materials and heat treatment proceedings of the 14TH IFHTSE Congress, 25(2004), p.1130 [18]Luciana S.
Online since: November 2012
Authors: Fei Yan, Yao Fang Xuan, Xiao Ping Dong, Dong Jiao Zhao, Feng Na Xi
Self-assembled Combination of Graphene with Au Nanoparticle-doped Copper-hexacyanoferrate Multilayer for Sensitive Detection of Hydrazine
Dongjiao Zhao1,2, Fei Yan1,2, Yaofang Xuan1,2, Xiaoping Dong1,2, Fengna Xi1,2*
1Department of Chemistry, Zhejiang Sci-Tec University, Hangzhou 310018, China
2Key Laboratory of Advanced Textile Materials and Manufacturing Technology of Education Ministry,
Zhejiang Sci-Tec University, Hangzhou 310018, China
*Email Address: xx19811981@126.com
Keywords: Graphene, Au nanoparticle-doped copper hexacyanoferrate multilayer, Self-assembly, Hydrazine.
A variety of chemically modified electrodes based on different hexacyanoferrate (HCF) hybrid materials have been applied for the detection of hydrazine.
Acknowlegedgments The authors gratefully acknowledge the financial support from the National Natural Science Foundation of China (No. 21001093, No. 20805043), the Zhejiang Provincial Natural Science Foundation of China (Y4110418), the Science Foundation of Zhejiang Sci-Tech University (0913848-Y) and Zhejiang Provincial Top Key Academic Discipline of Applied Chemistry and Eco-Dyeing & Finishing Engineering (ZYG2010013).
Chandrasekara, Journal of Electroanal.
Guo, Journal of Electroanal.
A variety of chemically modified electrodes based on different hexacyanoferrate (HCF) hybrid materials have been applied for the detection of hydrazine.
Acknowlegedgments The authors gratefully acknowledge the financial support from the National Natural Science Foundation of China (No. 21001093, No. 20805043), the Zhejiang Provincial Natural Science Foundation of China (Y4110418), the Science Foundation of Zhejiang Sci-Tech University (0913848-Y) and Zhejiang Provincial Top Key Academic Discipline of Applied Chemistry and Eco-Dyeing & Finishing Engineering (ZYG2010013).
Chandrasekara, Journal of Electroanal.
Guo, Journal of Electroanal.
Online since: May 2014
Authors: Su Min Zhang, Yong Quan Zhu
The surrounding rock was regarded as viscoelasto- material and the primary support was as linear elastic material.
Acknowledgment This work was financially supported by the China Natural Science Foundation (51378321) and the Ministry of Railway’s science and technology project (2011G026-J).
Chinese Journal of Geotechnical Engineering.31(6),859-863
[2] Sun J. 1999.Rheology of Rock Materials and Its Application in Engineering.
[3] Wang Z.Y. and Li Y.P. 2008.Rock Mass Rheology Theory and Numerical Simulation.Beijing:Science Press. p 266
Acknowledgment This work was financially supported by the China Natural Science Foundation (51378321) and the Ministry of Railway’s science and technology project (2011G026-J).
Chinese Journal of Geotechnical Engineering.31(6),859-863
[2] Sun J. 1999.Rheology of Rock Materials and Its Application in Engineering.
[3] Wang Z.Y. and Li Y.P. 2008.Rock Mass Rheology Theory and Numerical Simulation.Beijing:Science Press. p 266
Online since: August 2013
Authors: Jian Long Liu, Han Qing Wang, Yu Hui Chu, Hai Ping Zhang
Compared with traditional air purification equipment, it has changed technology of using active carbon filler, need not to regenerate raw materials and to ask specialist to maintain, no secondary pollution and it is convenient to maintain.
Science low-temperature plasma and catalytic purifying technology involves a lot of chemical reactions and has a complex reaction process, it has largely limited the design and application of low-temperature plasma and catalytic reactor.
Acknowledgements The work of this paper is financially supported by the Hunan Province Grand Science and Technology Special Project (No.2010FJ1012-1).
Journal of Suzhou University of Science and Technology, 2010(01), p.36-40 [5] ZHOU Jun-min, ZHOU Si-hua, GUO Yan-hua.
Gas Temperature in Dielectric Barrier Discharge at Different Gas Pressures.Journal of Hebei University, 201,30(1), p.23-25, 36 [7] ZHOU Bo, WANG Xiao-jing, SUN Cai-xin.
Science low-temperature plasma and catalytic purifying technology involves a lot of chemical reactions and has a complex reaction process, it has largely limited the design and application of low-temperature plasma and catalytic reactor.
Acknowledgements The work of this paper is financially supported by the Hunan Province Grand Science and Technology Special Project (No.2010FJ1012-1).
Journal of Suzhou University of Science and Technology, 2010(01), p.36-40 [5] ZHOU Jun-min, ZHOU Si-hua, GUO Yan-hua.
Gas Temperature in Dielectric Barrier Discharge at Different Gas Pressures.Journal of Hebei University, 201,30(1), p.23-25, 36 [7] ZHOU Bo, WANG Xiao-jing, SUN Cai-xin.
Online since: September 2013
Authors: Wei Gao, Mei Zhao
The designers try the whole new ways to interpret tradition, with new materials and new technologies expressing artistic conception.
Fig.22 Public buildings of Binhu Pearl District in Hefei In the design of public buildings of Binhu Pearl District in Hefei(Fig. 22), the designers condensed and refined the pick angles of door heads, eaves and Ma Tau walls in traditional Huizhou folk houses, reinterpreted them using modern materials, and generated declining glass pick angle, a new Huizhou charm element that have vague and multiple meanings.
Acknowledgements This work was financially supported by the Humanistic and Social Science Fund of Ministry of Education for Young Scientists of China (Grant No. 10YJC760102).
Bao: Journal of Hefei University of Technology (Natural Science) (in Chinese) Vol.32 (2009), p. 907-910 [3] X.D.
Liang: Journal of Hefei University of Technology (Social Sciences) (in Chinese) Vol.17 (2003), p. 86-89 [7] J.Y.
Fig.22 Public buildings of Binhu Pearl District in Hefei In the design of public buildings of Binhu Pearl District in Hefei(Fig. 22), the designers condensed and refined the pick angles of door heads, eaves and Ma Tau walls in traditional Huizhou folk houses, reinterpreted them using modern materials, and generated declining glass pick angle, a new Huizhou charm element that have vague and multiple meanings.
Acknowledgements This work was financially supported by the Humanistic and Social Science Fund of Ministry of Education for Young Scientists of China (Grant No. 10YJC760102).
Bao: Journal of Hefei University of Technology (Natural Science) (in Chinese) Vol.32 (2009), p. 907-910 [3] X.D.
Liang: Journal of Hefei University of Technology (Social Sciences) (in Chinese) Vol.17 (2003), p. 86-89 [7] J.Y.
Online since: September 2016
Authors: Valery Korobochkin, Natalya Usoltseva, Alexander M. Ustyugov, Alesya S. Dolinina
Acknowledgements
This work was supported by the Ministry of Education and Science of the Russian Federation (project № RFMEFI57514X0034).
Bochkareva, Phase composition and pore structure of nanoparticulate tin oxides prepared by AC electrochemical synthesis, Inorganic Materials. 49 (2013) 993–999
Magnacca, Infrared Study of some Surface Properties of Boehmite (y-AIO2H), Journal of the Chemical Society, Faraday Transactions. 88 (1992) 339−348
[12] Handbook of Layered Materials.
Farhadi, Synthesis and characterization of spinel-type CuAl2O4 nanocrystalline by modified sol–gel method, Journal of Sol-Gel Science and Technology. 51 (2009), 48-52.
Bochkareva, Phase composition and pore structure of nanoparticulate tin oxides prepared by AC electrochemical synthesis, Inorganic Materials. 49 (2013) 993–999
Magnacca, Infrared Study of some Surface Properties of Boehmite (y-AIO2H), Journal of the Chemical Society, Faraday Transactions. 88 (1992) 339−348
[12] Handbook of Layered Materials.
Farhadi, Synthesis and characterization of spinel-type CuAl2O4 nanocrystalline by modified sol–gel method, Journal of Sol-Gel Science and Technology. 51 (2009), 48-52.
Online since: May 2012
Authors: Quan Cheng Zhou, Gui Hua Sheng
Supercritical fluid extraction (SFE) can penetrate into the pores of solid materials more effectively than techniques based upon liquid solvents, so it enables a much faster mass transfer, resulting in faster extractions (Tura et al., 2002; Zhou, 2004).
Materials and method 2.1.
European Journal of Cancer, 41(4), 647-654 [2] Boye, J.
Food Science.
Food Science, 28(1), 111-116 [4] Jenkins, D.
Materials and method 2.1.
European Journal of Cancer, 41(4), 647-654 [2] Boye, J.
Food Science.
Food Science, 28(1), 111-116 [4] Jenkins, D.
Online since: February 2008
Authors: Ling Chen, De Chang Zeng, Wan Qi Qiu, Xin Wei Shi, Zheng Yi Liu
The substrate materials were Si and high speed steel sheets.
Acknowledgement This work had been supported by the Provincial Key Science and Technology R&D Program of Guangdong under project № 2006A11002001 and the Civic Key Science and Technology R&D Program of Guangzhou under project № 2005Z3-D2061, № 2006Z2-D0131 and № 2006Z3-D0281 and the Natural Science Foundation of China under project № 50771045.
References [1] Vieira R A, Nono M C: Advanced Powder Technology Vol. 498-499 (2005), p.717 [2] Ono T, Uemura M, Yatsuzuka M: Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions with Materials and Atoms.
Vol. 257 (2007), p.786 [3] Mendibide C, Steyer P, Fontaine J, et al: Surface & Coatings Technology Vol. 201 (2006), p.4119 [4] Dobrzanski L A, Polok M, Panjan P, et al: Journal of Materials Processing Technology.
[6] Leu M S, Chen B F, Chen S Y, et al: Surface & Coatings Technology Vol. 133 (2000), p.319 [7] Shi Z B, Tong H H, Liu X B, et al: Plasma Science & Technology Vol. 6 (2004), p.2581 [8] Cimenoglu H: Wear Vol. 210 (1997), p.204 [9] Minevich A A: Surface & coatings technology Vol. 53 (1992) p.161 [10] Zhang S, Sun D, Fu Y, et al: Thin Solid Films Vol. 447-448 (2004), p.462 MF MFAIP AIP Lower critical load Lc1 [N] 5.236 2.039 3.318 Higher critical load Lc2 [N] 9.376 7.079 5.975 CPRs=Lc1(Lc2- Lc1) 21.677 10.277 8.816
Acknowledgement This work had been supported by the Provincial Key Science and Technology R&D Program of Guangdong under project № 2006A11002001 and the Civic Key Science and Technology R&D Program of Guangzhou under project № 2005Z3-D2061, № 2006Z2-D0131 and № 2006Z3-D0281 and the Natural Science Foundation of China under project № 50771045.
References [1] Vieira R A, Nono M C: Advanced Powder Technology Vol. 498-499 (2005), p.717 [2] Ono T, Uemura M, Yatsuzuka M: Nuclear Instruments & Methods in Physics Research Section B-Beam Interactions with Materials and Atoms.
Vol. 257 (2007), p.786 [3] Mendibide C, Steyer P, Fontaine J, et al: Surface & Coatings Technology Vol. 201 (2006), p.4119 [4] Dobrzanski L A, Polok M, Panjan P, et al: Journal of Materials Processing Technology.
[6] Leu M S, Chen B F, Chen S Y, et al: Surface & Coatings Technology Vol. 133 (2000), p.319 [7] Shi Z B, Tong H H, Liu X B, et al: Plasma Science & Technology Vol. 6 (2004), p.2581 [8] Cimenoglu H: Wear Vol. 210 (1997), p.204 [9] Minevich A A: Surface & coatings technology Vol. 53 (1992) p.161 [10] Zhang S, Sun D, Fu Y, et al: Thin Solid Films Vol. 447-448 (2004), p.462 MF MFAIP AIP Lower critical load Lc1 [N] 5.236 2.039 3.318 Higher critical load Lc2 [N] 9.376 7.079 5.975 CPRs=Lc1(Lc2- Lc1) 21.677 10.277 8.816