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Online since: August 2004
Authors: U. Matsushima, M. Hino, T. Nakano, Y. Kawabata
Cross section image by CT
( (a) in Fig.4-2) Title of Publication (to be inserted by the publisher)
CT Applications
1) Cement materials
Three types of samples which are prepared in two curing conditions are investigated.
Cement materials and a cut carnation flower can show the effectiveness of this new CT system to invest a small amount of water change in samples.
Samples of cement materials were prepared by K.Tatsuyanagi et al, Shimizu co., Japan.
[10] U.Matsushima, Y.Kawabata and T.Horie, Abstracts of Method and Application of Radioanalytical Chemistry-VI, Kailua-Kona, Hawai'i, USA, Log No.409. to be published in IEEE Transactions of Nuclear Science
[11] U.Matsushima, Y.Kawabata and T.Horie, Abstracts of 7th World Conference on Neutron radiography, Rome, Italy, 2002, p.148, to be published in Journal of Radioanalytical and Nuclear Chemistry
Cement materials and a cut carnation flower can show the effectiveness of this new CT system to invest a small amount of water change in samples.
Samples of cement materials were prepared by K.Tatsuyanagi et al, Shimizu co., Japan.
[10] U.Matsushima, Y.Kawabata and T.Horie, Abstracts of Method and Application of Radioanalytical Chemistry-VI, Kailua-Kona, Hawai'i, USA, Log No.409. to be published in IEEE Transactions of Nuclear Science
[11] U.Matsushima, Y.Kawabata and T.Horie, Abstracts of 7th World Conference on Neutron radiography, Rome, Italy, 2002, p.148, to be published in Journal of Radioanalytical and Nuclear Chemistry
Online since: August 2014
Authors: Zhong Zhong, Yi Jian Feng, Chi Zhang, Ying Jun Sun, Lu Sun
Materials and Methods
Site description.
Different materials also had different volatilities and photoionization capacities, which made the PPID less repeatable once the conditions had changed.
Acknowledgements This work was supported by Zhejiang Environmental Protection Research Grant (2012A024) and Zhejiang Science and Technology Research Grant (2012F20017).
Min, Treatment of phenol-contaminated soil by Corynebacterium glutamicum and toxicity removal evaluation, Journal of hazardous materials, 182 (2010) 937-940
Milton, Microfabricated planar glass gas chromatography with photoionization detection, Journal of chromatography.
Different materials also had different volatilities and photoionization capacities, which made the PPID less repeatable once the conditions had changed.
Acknowledgements This work was supported by Zhejiang Environmental Protection Research Grant (2012A024) and Zhejiang Science and Technology Research Grant (2012F20017).
Min, Treatment of phenol-contaminated soil by Corynebacterium glutamicum and toxicity removal evaluation, Journal of hazardous materials, 182 (2010) 937-940
Milton, Microfabricated planar glass gas chromatography with photoionization detection, Journal of chromatography.
Online since: May 2011
Authors: Qiao Zhuo Gao, Yong Gang Yang, Fu Ping Liu
It was expected that the relationship between halftone reproduction and paper performances can be found which can provide theoretical reference for the choice of paper, the matching of different printing materials and process control.
Experimental Materials and Instruments 70g/m2 Chenming offset paper, 70g/m2 Golden Ball offset paper, 157g/m2 Polar Bear art paper, 157g/m2 Daishowa art paper, Tianshi offset printing ink (C, M, Y); WSB whiteness meter, ZPD-10A mercury-free smooth instrument, K&N-absorption meter, UGV gloss meter, Dainippon screen proof machine, X-Rite 530 spectrophotometer.
(In Chinese) [2] Yang Li: Journal of Imaging Science and Technology,2004,48(4):347-353
[3] Rogers G: Journal of Imaging Science and Technology,1997,41(6):643-56
[5] Xiaokun Qi, Yonggang: Print materials and printability(2nd edition), Printing Industry Press, 2008.
Experimental Materials and Instruments 70g/m2 Chenming offset paper, 70g/m2 Golden Ball offset paper, 157g/m2 Polar Bear art paper, 157g/m2 Daishowa art paper, Tianshi offset printing ink (C, M, Y); WSB whiteness meter, ZPD-10A mercury-free smooth instrument, K&N-absorption meter, UGV gloss meter, Dainippon screen proof machine, X-Rite 530 spectrophotometer.
(In Chinese) [2] Yang Li: Journal of Imaging Science and Technology,2004,48(4):347-353
[3] Rogers G: Journal of Imaging Science and Technology,1997,41(6):643-56
[5] Xiaokun Qi, Yonggang: Print materials and printability(2nd edition), Printing Industry Press, 2008.
Online since: August 2013
Authors: Meng Chan Zhou, Qun Yang Liu, Jun Su
It can do a nonlinear boundary analysis, material nonlinear analysis, heat of hydration Pushover analysis, reinforced concrete prestressed analysis, dynamic elastoplastic analysis, etc.
The basic properties of materials as shown in Table 1.
Table 1 Basic properties of materials Material Type Elastic modulus /Mpa Poisson's ratio Axial compressive strength /Mpa Axial tensile strength /Mpa C50 concrete 4.64e4 0.2 72 7.2 Prestressed steel strand 2.10e5 0.3 210 210 The concrete including steel bar 5.26e4 0.2 75 7.5 Fig.1 The layout of prestressed steel strand(Unit: mm) Establishing the finite element model with Midas / Civil.
Journal of Changsha University of Science and Technology (Natural Science), 2010, 7(1): 39-51 [4] Junli Liu, Tianqing Yu, Tianliang Wang.
Journal of Hubei University of technology. 2003, 18(3):8-15.
The basic properties of materials as shown in Table 1.
Table 1 Basic properties of materials Material Type Elastic modulus /Mpa Poisson's ratio Axial compressive strength /Mpa Axial tensile strength /Mpa C50 concrete 4.64e4 0.2 72 7.2 Prestressed steel strand 2.10e5 0.3 210 210 The concrete including steel bar 5.26e4 0.2 75 7.5 Fig.1 The layout of prestressed steel strand(Unit: mm) Establishing the finite element model with Midas / Civil.
Journal of Changsha University of Science and Technology (Natural Science), 2010, 7(1): 39-51 [4] Junli Liu, Tianqing Yu, Tianliang Wang.
Journal of Hubei University of technology. 2003, 18(3):8-15.
Online since: September 2013
Authors: Isidro D. Obregon, Brandi S. Betts-Obregon, Francisco Pedraza, Alexandra Ortiz, Dhiraj Sardar, Andrew T. Tsin, Brian Yust
Introduction
Nano-technology and materials derived from this technology have become of great interest to the science and medical community alike for use in applications toward biomedical technology, optics, tissue and cell imaging, site-specific drug delivery, and biosensors.
While research and bio-applications utilizing nanotechnology has increased over the years, studies characterizing effects of nanoparticle exposure and their potential cytotoxicity are limited [1].Altering nanoparticle characteristics such as size, surface chemistry, phase, and morphology can tune the cytotoxicity mechanisms, potentially resulting in greatly different cytotoxicity responses for materials of essentially the same composition [2].
Acknowledgments Authors thank the Center for Research and Training in the Sciences at UTSA, the National Center for Research Resources (5 G12RR013646-12) and the National Institute on Minority Health and Health Disparities (G12MD007591) at the National Institutes of Health for support of this research.
Journal of Biomedical Materials Research Part A, 2010. 93A(1): p. 337-346
International Journal of Nanomedicine, 2010. 5: p. 201-209
While research and bio-applications utilizing nanotechnology has increased over the years, studies characterizing effects of nanoparticle exposure and their potential cytotoxicity are limited [1].Altering nanoparticle characteristics such as size, surface chemistry, phase, and morphology can tune the cytotoxicity mechanisms, potentially resulting in greatly different cytotoxicity responses for materials of essentially the same composition [2].
Acknowledgments Authors thank the Center for Research and Training in the Sciences at UTSA, the National Center for Research Resources (5 G12RR013646-12) and the National Institute on Minority Health and Health Disparities (G12MD007591) at the National Institutes of Health for support of this research.
Journal of Biomedical Materials Research Part A, 2010. 93A(1): p. 337-346
International Journal of Nanomedicine, 2010. 5: p. 201-209
Online since: June 2014
Authors: Yun Qi, Yi Zhang, Li Na Gao, Ying Zong Ren, Yuan Lu Cui
Preparation and Evaluation of Calcium Alginate / Glycyrrhizic acid Hydrogel
Ying-Zong Ren1, Yi Zhang1, Li-Na Gao1, Yuan-Lu Cui1,* and Yun Qi2
1Tianjin State Key Laboratory of Modern Chinese Medicine,
Tianjin University of Traditional Chinese Medicine, Tianjin, P.R.China, 300193
2School of Environmental Science and Engineering,
Tianjin University, Tianjin, P.R.China, 300072
* Corresponding author email: labtcmdds@tjutcm.edu.cn
Keywords: Glycyrrhizic acid, Sodium Alginate, Hydrogel, Calcium Ions, Gelation Time
Abstract.
Materials and methods Materials.
Acknowledgements This work was supported by the National Natural Science Foundation of China (No. 51108310, 81173469) and the Specialized Research Fund for the Doctoral Program of Higher Education (No. 20131210110008).
Kipke: Journal of biomedical materials research Part A Vol. 83 (2007), p.1128-37 [2] M.
Chen: European journal of pharmacology Vol. 570 (2007), p. 43-49 [7] Y.Han, Q.
Materials and methods Materials.
Acknowledgements This work was supported by the National Natural Science Foundation of China (No. 51108310, 81173469) and the Specialized Research Fund for the Doctoral Program of Higher Education (No. 20131210110008).
Kipke: Journal of biomedical materials research Part A Vol. 83 (2007), p.1128-37 [2] M.
Chen: European journal of pharmacology Vol. 570 (2007), p. 43-49 [7] Y.Han, Q.
Online since: September 2013
Authors: Edison Omollo, Chu Yang Zhang, Li Liu, Sizo Ncube
Introduction
Nonwovens are materials that are produced by the laying of fibres in a web form.
Compared to woven materials the fibres in nonwoven materials are joined together by entangling or chemical bonding whereas the fibres in woven fabrics, the yarns that are used to produce the woven fabric, are joined by strong inter-fibre forces which are achieved by the spinning process [3].
Materials and experimental procedures Materials: For the experiment PVA and PET was used for producing thee samples.
Journal of Applied Polymer Science, 2008, 108:3876–3880
Silberschmidt Tensile Behavior of Low Density Thermally Bonded Nonwoven Material Journal of Engineered Fibers and Fabrics 2009, Volume 4(Issue 1 – 2009 – Special Issue: MODELING).
Compared to woven materials the fibres in nonwoven materials are joined together by entangling or chemical bonding whereas the fibres in woven fabrics, the yarns that are used to produce the woven fabric, are joined by strong inter-fibre forces which are achieved by the spinning process [3].
Materials and experimental procedures Materials: For the experiment PVA and PET was used for producing thee samples.
Journal of Applied Polymer Science, 2008, 108:3876–3880
Silberschmidt Tensile Behavior of Low Density Thermally Bonded Nonwoven Material Journal of Engineered Fibers and Fabrics 2009, Volume 4(Issue 1 – 2009 – Special Issue: MODELING).
Online since: May 2012
Authors: Yuan Yuan He
Preliminary Study on Regional SD Model of Low-carbon Economy
HE Yuanyuan
School of Environmental Science and Technology, Tianjin Unviersity, China
hyy@tju.edu.cn
Keywords: Low-carbon economy, System Dynamics, modeling, policy, technology
Abstract.
Society Resources Environment Population Economy Information and Material Exchange with outside world Fig. 1 Basic Structure of Improved Regional Low-carbon Economy System Construction of SD model of RLES Regional low-carbon economy system is a complex system.
Vol. 10, p.87-89.(2010) [2] Xiong Jijun, Zhao Gang: China should develop low-carbon economy, China Science and Technology Forum, Vol. 10, p. 87-92. (2007) [3] Xin Zhangping, Zhang Yintai: Low Carbon Economy and Low Carbon City, Urban Studies, Vol. 15, p. 98-102. (2008) [4] Xie Laihui: Carbon Lock-in,Unlocking and Low Carbon Developmen, China Opening Herald, Vol. 5, p. 8-14. (2009) [5] Jiang Jinhe, Wu Bin: Current Situations on Low Carbon Economy Models and Discussion on Several Relevant Theoretical Issues, Resources Science, Vol.32. (2010) [6] IPCC.
Climate Change 2007: The Physical Science Basis.
emissions of China iron and steel industry, Journal of High Technology, Vol. 20, p. 524-530. (2010) [15] Wang Liqiong, Wang Tieli, Chu Yanting: System Dynamic Modeling and Application on Sustainable Development of Coal Rescource City, Industry Technology and Economy, Vol. 29, p. 97-101. (2010)
Society Resources Environment Population Economy Information and Material Exchange with outside world Fig. 1 Basic Structure of Improved Regional Low-carbon Economy System Construction of SD model of RLES Regional low-carbon economy system is a complex system.
Vol. 10, p.87-89.(2010) [2] Xiong Jijun, Zhao Gang: China should develop low-carbon economy, China Science and Technology Forum, Vol. 10, p. 87-92. (2007) [3] Xin Zhangping, Zhang Yintai: Low Carbon Economy and Low Carbon City, Urban Studies, Vol. 15, p. 98-102. (2008) [4] Xie Laihui: Carbon Lock-in,Unlocking and Low Carbon Developmen, China Opening Herald, Vol. 5, p. 8-14. (2009) [5] Jiang Jinhe, Wu Bin: Current Situations on Low Carbon Economy Models and Discussion on Several Relevant Theoretical Issues, Resources Science, Vol.32. (2010) [6] IPCC.
Climate Change 2007: The Physical Science Basis.
emissions of China iron and steel industry, Journal of High Technology, Vol. 20, p. 524-530. (2010) [15] Wang Liqiong, Wang Tieli, Chu Yanting: System Dynamic Modeling and Application on Sustainable Development of Coal Rescource City, Industry Technology and Economy, Vol. 29, p. 97-101. (2010)
Online since: May 2016
Authors: Jie Mi, Shang Guan Ju, Hui Qing Wang, Xiao Wei Zhao, Li Ping Liu
Acknowledgements
This work was supported by the National Natural Science Foundation of China (21276172/51272170).
Preparation of zinc ferrite in the presence of carbon material and its application to hot-gas cleaning.
Journal of the Mechanical Behavior of Biomedical Materials. 42 (2015) 100-15
Materials Science and Engineering: C. 49 (2015) 851-60
Chemical Engineering Science.1970,25:1091-1107
Preparation of zinc ferrite in the presence of carbon material and its application to hot-gas cleaning.
Journal of the Mechanical Behavior of Biomedical Materials. 42 (2015) 100-15
Materials Science and Engineering: C. 49 (2015) 851-60
Chemical Engineering Science.1970,25:1091-1107
Online since: September 2005
Authors: Vera P. Pavlović, B.D. Stojanović, Maria V. Nikolić, Vladimir B. Pavlović, Nebojsa Labus
A major difficulty in processing electroceramic materials with required properties is the lack
of reproducibility.
In order to achieve reproducible properties of these materials control of processing conditions and development of specified microstructures is essential.
This research was performed under the Project No. 1832 entitled "Synthesis of functional materials from the 'synthesis-structure-properties-application' relationship", financed by the Ministry of Science and Environmental Protection of the Republic of Serbia.
Shi, Journal of Materials Science 34(1999), p. 3801
Bouvard, Materials Science and Engineering A279 (2000), p. 185
In order to achieve reproducible properties of these materials control of processing conditions and development of specified microstructures is essential.
This research was performed under the Project No. 1832 entitled "Synthesis of functional materials from the 'synthesis-structure-properties-application' relationship", financed by the Ministry of Science and Environmental Protection of the Republic of Serbia.
Shi, Journal of Materials Science 34(1999), p. 3801
Bouvard, Materials Science and Engineering A279 (2000), p. 185