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Online since: May 2011
Authors: Ju Nang Liu, He Li, Guo Ying Zhou, Huai Yun Zhang
Chinese Agricultural Science Bulletin, 2007, 23 (2):146-150
Anhui Agricultural Sciences, 2007, 35 (19): 5798-5800
Anhui Agricultural Science Bulletin, 2007, 13 (8): 127-128
Fujian Forestry Science and Technology, 2006, 33 (1)
Journal of Nanjing Forestry University (Natural Science Edition), 2007, 31 (4):121-124
Anhui Agricultural Sciences, 2007, 35 (19): 5798-5800
Anhui Agricultural Science Bulletin, 2007, 13 (8): 127-128
Fujian Forestry Science and Technology, 2006, 33 (1)
Journal of Nanjing Forestry University (Natural Science Edition), 2007, 31 (4):121-124
Online since: December 2012
Authors: Zhen Liu, Ming Zhu, Jian Yu
The Experimental Research on Tiled Multiple Projectors Displaying based on ICC Mechanism
LIU Zhen1,a, ZHU Ming2,b and YU Jian1,c
1College of Communication and Art Design, University of Shanghai for Science
and Technology, China
2Henan Institute of Engineering, Department of Materials and Chemical Engineering, China
alunaprint@163.com,b115457719@qq.com, cyujian_wx@163.com
Keywords: Tiled multiple projectors display system; ICC; Color management; Intensity blending; Lagrange interpretation
Abstract: The research on the color uniformity of the tiled multiple projectors display systems gets more and more attention.
Before calibration After calibration Fig.3 Effect of the intensity fusion Acknowledgements This work is supported by the natural science research project of education department of Henan Province(No.12A510004), the key project of science and technology department of Henan Province(No.112102210017) and the science support project of Suzhou city(No.SG201102).
The Research on HDR Image Rendering Based on Image Appearance Effect Predicting, Journal of Wuhan University (Information science edition), 2011,36(7),pp 871-875
The 31st International Congress on Imaging Science (ICIS2010), 2010, 5:114-117 [10] Zhang Yi.
Before calibration After calibration Fig.3 Effect of the intensity fusion Acknowledgements This work is supported by the natural science research project of education department of Henan Province(No.12A510004), the key project of science and technology department of Henan Province(No.112102210017) and the science support project of Suzhou city(No.SG201102).
The Research on HDR Image Rendering Based on Image Appearance Effect Predicting, Journal of Wuhan University (Information science edition), 2011,36(7),pp 871-875
The 31st International Congress on Imaging Science (ICIS2010), 2010, 5:114-117 [10] Zhang Yi.
Online since: November 2007
Authors: Guy Daculsi, Pierre Weiss, Eric Aguado, Pierre Layrolle, Daniel Chappard, G. Legeay
However, biological materials have intrinsic limitations.
MicroCT was used to measure the materials' porosity.
These materials present rather low intrinsic primary mechanical properties.
Apatitic calcium phosphates: possible restorative materials.
Journal of Bone and Joint Surgery American 85-A: 1927-1935,. 40 Daculsi G., (2006).
MicroCT was used to measure the materials' porosity.
These materials present rather low intrinsic primary mechanical properties.
Apatitic calcium phosphates: possible restorative materials.
Journal of Bone and Joint Surgery American 85-A: 1927-1935,. 40 Daculsi G., (2006).
Online since: December 2019
Authors: S. Jeyakumar, B.A. Saravanan, Ganesh Gowthaman
Extremely hard and brittle materials are difficult to machine in conventional process.
The wire materials of: Brass, zinc coated brass, copper coated brass, Tungsten and molybdenum.
The Figure 3(a) shows the relationship between the wet and Dry-WEDM, 3(b) represents the machining of different materials.
Fig.4 (a) SEM micrograph of wet WEDM, (b) Wet-WEDM of surface roughness (Ra=1.45µm, I=23A, V=40V, (c) Dry-WEDM of surface roughness(Ra=1.51µm, I=14A,V=20V) (Source: Abdul kareem, Journal of applied sciences 2011) They investigated the low speed (LS-WEDM) machining in gas atmosphere condition, it reveals the better straightness, shorter gap distance and excellent finish cutting [28].
Future Work The WEDM is one of the non-contact machining technique and most preferable process, which is used for the machining of conventional materials to nascent materials [31].
The wire materials of: Brass, zinc coated brass, copper coated brass, Tungsten and molybdenum.
The Figure 3(a) shows the relationship between the wet and Dry-WEDM, 3(b) represents the machining of different materials.
Fig.4 (a) SEM micrograph of wet WEDM, (b) Wet-WEDM of surface roughness (Ra=1.45µm, I=23A, V=40V, (c) Dry-WEDM of surface roughness(Ra=1.51µm, I=14A,V=20V) (Source: Abdul kareem, Journal of applied sciences 2011) They investigated the low speed (LS-WEDM) machining in gas atmosphere condition, it reveals the better straightness, shorter gap distance and excellent finish cutting [28].
Future Work The WEDM is one of the non-contact machining technique and most preferable process, which is used for the machining of conventional materials to nascent materials [31].
Online since: August 2011
Authors: Zi Li Liu, Xin Bo Liu, Xin Chun Yan, Gui Bin Zhou
Investigation on structure and electrochemical properties of MgNi+x%B (x=0,2,5,10) hydrogen storage alloys
Zili Liua, Xinbo Liub, Xinchun Yanc, and Guibin Zhoud
College of Material science and Technology, Nanjing University of Aeronautics and Astronautics, 29 Yudao Street, 210016 Nanjing, China
azililiu@sohu.com, bliuxinbo@nuaa.edu.cn, cyanxinchun@nuaa.edu.cn,d1986zgb@sohu.com
Keywords: Mg-based electrode alloys, Hydrogen storage alloy, Electrochemical properties, Boron
Abstract.
However, it is still not clear about the effects of boron on the structure and properties of amorphous MgNi electrode materials.
Acknowledgement This work was supported by a grant from Natural Science Foundation of Jiangsu Province of China (BK2009577), and the key technologies R & D program of Jiangsu Province of China (BE2010103).
W: Rare metal materials and engineering.
Huang: Chinese journal of chemical physics.
However, it is still not clear about the effects of boron on the structure and properties of amorphous MgNi electrode materials.
Acknowledgement This work was supported by a grant from Natural Science Foundation of Jiangsu Province of China (BK2009577), and the key technologies R & D program of Jiangsu Province of China (BE2010103).
W: Rare metal materials and engineering.
Huang: Chinese journal of chemical physics.
Online since: December 2010
Authors: Susana Méndez, Jacques Lacaze, Iker Asenjo, Jon Sertucha, Ramón Suárez, Peio Larrañaga
Ignaszak: Materials Science (Medziagotyra) Vol. 9 (2003), p. 245
[5] R.
Kallböm: Materials Science and Engineering A Vol. 413-414 (2005), p. 346 [6] M.
Lacaze: International Journal of Cast Metals Research Vol. 20 (2007), p. 319 [8] J.
Lacaze: Metallurgical and Materials Transactions Vol. 40A (2009), p. 654 [10] S.
Kallböm: Materials Science and Engineering A Vol. 413-414 (2005), p. 346 [6] M.
Lacaze: International Journal of Cast Metals Research Vol. 20 (2007), p. 319 [8] J.
Lacaze: Metallurgical and Materials Transactions Vol. 40A (2009), p. 654 [10] S.
Online since: November 2012
Authors: Yuan Hong Ding, Hong Qiang Ren, Jian Lu, Qing Wang
Effects of Trichloroethylene on the wastewater treatment in membrane bioreactors
DING Yuanhong1,a, WANG Qing1 , REN Hongqiang1, LU Jian2
1State Key Laboratory of Pollution Control and Resources Reuse, School of the Environment, Nanjing University, Nanjing 210046 China
2China Yixing Industrial Park for Environmental Science and Technology, Yixing 214200 China
aEmail: yhding@nju.edu.cn;
Keywords: activity, activated sludge, trichloroethylene, membrane bioreactors
Abstract.
The Membrane Bioreactors (MBRs), combining separation membrane and biological reactors, has much more advantages than conventional activated sludge processes using gravity settlers, such as higher biomass concentration, better and more reliable effluent quality, lower sludge production and compacted volume[5,6,7], despite the negative appraisal for expensive cost related to membranes and aeration[8], many large-scale MBRs had been constructed for industrial and municipal wastewater treatment, or drinking-water treatment, many researches are mainly on the mechanisms of membrane foulings and some related key factors influencing the membrane performance, and concluded that appropriate materials and good hydraulic conditions in MBRs could maintain a good performance for a long time, in this experiments, MBRs is used as an method to captures effectively the nitrifying bacteria, and maintain enough mass of nitrifying bacteria to degradate TCE.
Materials and methods Experimental apparatus Three series of submerged membrane bioreactors, with working volume of 9 liter, was operated simultaneously, three piece of membrane (length 0.303m× breadth 0.212m, pore size 0.4μm), was supplied, aeration was supplied through a porous tube at the bottom, and the effluent was sucked out intermittently by a peristaltic pump (COLE-PARMER Co.
Acknowledgements The authors wish to gratefully acknowledge the natural Science Council of the Jiangsu Province for financially supporting this research.
Journal of Hazardous Materials,B73: 129~142(2000)
The Membrane Bioreactors (MBRs), combining separation membrane and biological reactors, has much more advantages than conventional activated sludge processes using gravity settlers, such as higher biomass concentration, better and more reliable effluent quality, lower sludge production and compacted volume[5,6,7], despite the negative appraisal for expensive cost related to membranes and aeration[8], many large-scale MBRs had been constructed for industrial and municipal wastewater treatment, or drinking-water treatment, many researches are mainly on the mechanisms of membrane foulings and some related key factors influencing the membrane performance, and concluded that appropriate materials and good hydraulic conditions in MBRs could maintain a good performance for a long time, in this experiments, MBRs is used as an method to captures effectively the nitrifying bacteria, and maintain enough mass of nitrifying bacteria to degradate TCE.
Materials and methods Experimental apparatus Three series of submerged membrane bioreactors, with working volume of 9 liter, was operated simultaneously, three piece of membrane (length 0.303m× breadth 0.212m, pore size 0.4μm), was supplied, aeration was supplied through a porous tube at the bottom, and the effluent was sucked out intermittently by a peristaltic pump (COLE-PARMER Co.
Acknowledgements The authors wish to gratefully acknowledge the natural Science Council of the Jiangsu Province for financially supporting this research.
Journal of Hazardous Materials,B73: 129~142(2000)
Online since: December 2003
Authors: Takashi Nakamura, Kawashita Masakazu, Hyun Min Kim, Tadashi Kokubo, Xin-Yu Cui
Journal Citation (to be inserted by the publisher )
Copyright by Trans Tech Publications
Bonelike Apatite Formation on Anodically Oxidized Titanium Metal
in Simulated Body Fluid
Masakazu Kawashita1 , Xin-Yu Cui
1,2
, Hyun-Min Kim
3
, Tadashi Kokubo4
and Takashi Nakamura5
1
Department of Material Chemistry, Graduate School of Engineering, Kyoto University,
Sakyo-ku, Kyoto 606-8501, Japan
kawashita@sung7.kuic.kyoto-u.ac.jp
2
Institute of Metal Research, Chinese Academy of Sciences, Shenyang, 110016, P.R.
China 3 Department of Ceramic Engineering, School of Advanced Materials Engineering, Yonsei University, 134, Shinchon-dong, Seodaemun-gu, Seoul 120-749, Korea 4 Research Institute for Science and Technology, Chubu University, 1200 Matsumoto-cho, Kasugai-shi, Aichi 487-8501, Japan 5 Department of Orthopaedic Surgery, Graduate School of Medicine, Kyoto University, Sakyo-ku, Kyoto 606-8501, Japan Keywords: titanium metal, anodic oxidation, apatite, simulated body fluid, rutile, Abstract.
They are called bioactive ceramics, and have been used as important bone repairing materials.
An essential requirement for an artificial material to bond to living bone is the formation of a biologically active bonelike apatite layer on its surface in a body environment.
China 3 Department of Ceramic Engineering, School of Advanced Materials Engineering, Yonsei University, 134, Shinchon-dong, Seodaemun-gu, Seoul 120-749, Korea 4 Research Institute for Science and Technology, Chubu University, 1200 Matsumoto-cho, Kasugai-shi, Aichi 487-8501, Japan 5 Department of Orthopaedic Surgery, Graduate School of Medicine, Kyoto University, Sakyo-ku, Kyoto 606-8501, Japan Keywords: titanium metal, anodic oxidation, apatite, simulated body fluid, rutile, Abstract.
They are called bioactive ceramics, and have been used as important bone repairing materials.
An essential requirement for an artificial material to bond to living bone is the formation of a biologically active bonelike apatite layer on its surface in a body environment.
Online since: December 2013
Authors: Chun Hua Jiang, Jian Zhai
Introduction
CaO2 is a kind of very important and multifunctional inorganic chemicals, which can be applied in coating materials for rice seeds for the enhancement of budding, oxygen generator, maintaining freshness of fruits and vegetables, strengthening rubber and so on[1].
Hydrogen peroxide provides the needed oxygen to oxide these materials[2].
Materials and methods Reagents.
Acknowledgements This work was financially supported by College Industrialization Project of Jiangsu Province, Chian(JHB2011-64) and the key project of international science and technology cooperation of Jiangsu Province to hire foreign experts, China(Jiangsu department of finance and education[2012]256).
[13] Lili Wu, Qing Zhao, Qunfang Li: Journal of Southwest Nationalities College Natural Science Edition Vol. 26 (2000), p. 105-107(in Chinese)
Hydrogen peroxide provides the needed oxygen to oxide these materials[2].
Materials and methods Reagents.
Acknowledgements This work was financially supported by College Industrialization Project of Jiangsu Province, Chian(JHB2011-64) and the key project of international science and technology cooperation of Jiangsu Province to hire foreign experts, China(Jiangsu department of finance and education[2012]256).
[13] Lili Wu, Qing Zhao, Qunfang Li: Journal of Southwest Nationalities College Natural Science Edition Vol. 26 (2000), p. 105-107(in Chinese)
Online since: April 2012
Authors: Alex Lugovskoy, Michael Zinigrad, Barbara Kazanski, Alexei Kossenko
Materials identification and analysis made by the PDF-2 Release 2009 (Powder Diffraction File).
Jiang: Journal of Alloys and Compounds Vol. 505 (2010), p. 188
Li: Applied Surface Science Vol. 253 (2007), p. 6118
[6] HongfeiGuo, MaozhongAn, ShenXu, HuibinHuo: Materials Letters Vol. 60 (2006), p. 1538
Xu: Applied Surface Science Vol. 252 (2005), p. 345
Jiang: Journal of Alloys and Compounds Vol. 505 (2010), p. 188
Li: Applied Surface Science Vol. 253 (2007), p. 6118
[6] HongfeiGuo, MaozhongAn, ShenXu, HuibinHuo: Materials Letters Vol. 60 (2006), p. 1538
Xu: Applied Surface Science Vol. 252 (2005), p. 345