Sort by:
Publication Type:
Open access:
Publication Date:
Periodicals:
Search results
Online since: June 2014
Authors: Ping Yang
Materials and methods
Strains and culture conditions.
Acknowledgements This project was financially supported by the natural science foundation of Heilongjiang province (C201118).
Qi: Journal of south China agricultural university Vol. 4(2003), p. 24-27 [3] S Q Chen, B Wu, Z Qin, G Z Liu L Deng, X M Deng: Journal of southwest agricultural.
He:Gansu agricultural science and technology Vol. 9(2002), p. 44-45 [9] C.F.
Zhang: Soybean science Vol. 24(2005), p. 171-175 [13] D.M.
Acknowledgements This project was financially supported by the natural science foundation of Heilongjiang province (C201118).
Qi: Journal of south China agricultural university Vol. 4(2003), p. 24-27 [3] S Q Chen, B Wu, Z Qin, G Z Liu L Deng, X M Deng: Journal of southwest agricultural.
He:Gansu agricultural science and technology Vol. 9(2002), p. 44-45 [9] C.F.
Zhang: Soybean science Vol. 24(2005), p. 171-175 [13] D.M.
Online since: December 2004
Authors: Yan Shen Xu, F.Y. Zhang, D.J. Hu
Materials Science Forum Vols. *** (2004) pp.613-619
online at http://scientific.net
2004 Trans Tech Publications, Switzerland
The Objectives Decision Making Study in Product Innovation
Development Process Based On TRIZ Technology Evolution Theory
F.Y.
Former two steps determining the technology level, and retral Fig.2 Evolutionary potential radar plot Materials Science Forum Vols. *** 615 two steps accomplish object analysis and decision-making.
Materials Science Forum Vols. *** 617 The outside perimeter of the plot represents evolutionary limit at present, it is a removable perimeter with the progress of technology environment.
Fig.6 Hydrodynamic reciprocating seal technological system evolutionary potential radar plot Materials Science Forum Vols. *** 619 Acknowledgements The author is grateful to the National Ministry of Education Foundation ACP&MT Lib of Tianjin University for funding this work.
Mann: Journal of TRIZ Vol. 3 (1999), p. 37 [6] M.S.
Former two steps determining the technology level, and retral Fig.2 Evolutionary potential radar plot Materials Science Forum Vols. *** 615 two steps accomplish object analysis and decision-making.
Materials Science Forum Vols. *** 617 The outside perimeter of the plot represents evolutionary limit at present, it is a removable perimeter with the progress of technology environment.
Fig.6 Hydrodynamic reciprocating seal technological system evolutionary potential radar plot Materials Science Forum Vols. *** 619 Acknowledgements The author is grateful to the National Ministry of Education Foundation ACP&MT Lib of Tianjin University for funding this work.
Mann: Journal of TRIZ Vol. 3 (1999), p. 37 [6] M.S.
Online since: January 2013
Authors: Jun Shen, Guang Ming Wu, Xiao Bo Jin, Zeng Hai Zhang, Guo Hua Gao, Wei Feng
Nanostructural WO3 materials exhibit excellent gasochormism performance under the action of the hydrogen gas.
Neumann, Stability of gasochromic WO3 films, Solar Energy Materials and Solar Cells. 63 (2000) 165-176 [5] S.
Granqvist, Transparent conductors as solar energy materials: A panoramic review, Solar Energy Mater Solar Cells. 91(17) (2007) 1529 [8] R.
Rauh, Electrochromic materials for controlled radiant energy transfer in buildings, Solar Energy Mater. 11(3) (1984) 177 [9] A.
Deepa, FTIR and absorption edge studies on tungsten oxide based precursor materials synthesized by sol–gel technique, Journal of Non-Crystalline Solids. 306 (2002) 129-137 [12] U.
Neumann, Stability of gasochromic WO3 films, Solar Energy Materials and Solar Cells. 63 (2000) 165-176 [5] S.
Granqvist, Transparent conductors as solar energy materials: A panoramic review, Solar Energy Mater Solar Cells. 91(17) (2007) 1529 [8] R.
Rauh, Electrochromic materials for controlled radiant energy transfer in buildings, Solar Energy Mater. 11(3) (1984) 177 [9] A.
Deepa, FTIR and absorption edge studies on tungsten oxide based precursor materials synthesized by sol–gel technique, Journal of Non-Crystalline Solids. 306 (2002) 129-137 [12] U.
Online since: July 2011
Authors: Ju Mei Liu, Shuang Kou Chen, Li Ping Guo
Risk Materials.
Once accidental leak occurred in a factory, and the risk materials were spreaded, the pollution level of the receiving water can be influenced directly by the amounts of the risk materials.
The storage tank is an elementary unit to store risk materials.
Pipeline is the effective carrier to transport hazard materials in factories.
Journal of Basic Science and Engineering, 2003, 11(3), p. 266-273, in Chinese
Once accidental leak occurred in a factory, and the risk materials were spreaded, the pollution level of the receiving water can be influenced directly by the amounts of the risk materials.
The storage tank is an elementary unit to store risk materials.
Pipeline is the effective carrier to transport hazard materials in factories.
Journal of Basic Science and Engineering, 2003, 11(3), p. 266-273, in Chinese
Online since: June 2014
Authors: Guang Yi Luo, Shuai Kang
Introduction
With the development of science and technology, people has realized the optical properties more and more deeply.
In this paper, the theory of optical coherence has been studied , and its application is also studied in measurement science, such as, long distance stellar diameter and material movement speed are measured and calculated in astronomy, modern measurement technology on length and its tiny changes is monitored, industrial parts surface quality is detected, spectrum wavelength and material fine spectral is analyzed, the refractive index and concentration are measured in the chemical industry .
Journal of Xi'an Institute of mining and Technology (Natural Science Edition) [J], 1997, 2 (4): 439-442 [2] Shi Zhengyou.
Journal of Xi'an Institute of mining and Technology (Natural Science Edition) [J], 1997, 3 (17): 433-446 [3] Lin Qiang, Ye Xinghao.
Beijing: Science Press, 2010:442-445 [4] Li Junchang, Xiong Bingheng, et al.
In this paper, the theory of optical coherence has been studied , and its application is also studied in measurement science, such as, long distance stellar diameter and material movement speed are measured and calculated in astronomy, modern measurement technology on length and its tiny changes is monitored, industrial parts surface quality is detected, spectrum wavelength and material fine spectral is analyzed, the refractive index and concentration are measured in the chemical industry .
Journal of Xi'an Institute of mining and Technology (Natural Science Edition) [J], 1997, 2 (4): 439-442 [2] Shi Zhengyou.
Journal of Xi'an Institute of mining and Technology (Natural Science Edition) [J], 1997, 3 (17): 433-446 [3] Lin Qiang, Ye Xinghao.
Beijing: Science Press, 2010:442-445 [4] Li Junchang, Xiong Bingheng, et al.
Online since: June 2011
Authors: Wei Li
Research on the Key Technology and Application
of the Process Monitor Configuration System
Li Wei
College of Information Science & Engineering,Chongqing Jiaotong University, Chongqing China
lwcqcn@sina.com.cn
Key words: configuration, monitor, wall material
Abstract.
Introduction In the process industry of new wall materials, production equipments are full of some large capacity and strong continuity, a coordinated and timely monitoring is required to adjust some parameters’ disturbance, promote the stable, continuous production and optimize the production for achieving the best efficient and economic operation in this process.
Conclusion Most production enterprises of new wall materials are a kind of labor-intensive enterprises, in recent years labor costs is rising, this process monitor configuration system is helpful for improving the automation, intelligence and production efficiency of new wall materials equipments, reducing production investment costs and promoting the healthy development of new wall materials enterprises.
This article is specially sponsored by the state natural science fund(61004118).
Journal of System Simulation Vol.20 (2008), p.4159.
Introduction In the process industry of new wall materials, production equipments are full of some large capacity and strong continuity, a coordinated and timely monitoring is required to adjust some parameters’ disturbance, promote the stable, continuous production and optimize the production for achieving the best efficient and economic operation in this process.
Conclusion Most production enterprises of new wall materials are a kind of labor-intensive enterprises, in recent years labor costs is rising, this process monitor configuration system is helpful for improving the automation, intelligence and production efficiency of new wall materials equipments, reducing production investment costs and promoting the healthy development of new wall materials enterprises.
This article is specially sponsored by the state natural science fund(61004118).
Journal of System Simulation Vol.20 (2008), p.4159.
Online since: May 2010
Authors: Božidar Šarler, Kosec Gregor
Since 1980's, there is an
exceedingly growing interest in physical understanding and numerical modeling of liquid-solid
phase changes in multiconstituent materials of the metallic, ceramics and polymer types.
Stomp: Metallurgical and Materials Transactions A Vol. 29A (1998), p. 617
Mencinger: Journal of Computational Physics Vol. 198 (2003), p. 243-264
Shen: Computer Modelling in Engineering & Sciences Vol. 3 (2002), p. 11-52
Shen, The Meshless Method, Tech Science Press, Encino, 2002
Stomp: Metallurgical and Materials Transactions A Vol. 29A (1998), p. 617
Mencinger: Journal of Computational Physics Vol. 198 (2003), p. 243-264
Shen: Computer Modelling in Engineering & Sciences Vol. 3 (2002), p. 11-52
Shen, The Meshless Method, Tech Science Press, Encino, 2002
Online since: December 2007
Authors: J.L. Song, Guang Jun Chen
The elastro-plastic deformation model Suppose the material cut is of
continuum and homogeneous.
Hu, et al: Journal of Science and Technology of South China, Vol.22 (1994) No.2, pp.1-10
[3] Sasahara H, Obikawa T and Shirakashi T: Journal of Materials Processing Technology, Vol.62 (1996), pp.448-453
[4] Ceret.ti E, Fallbohmer P, Wu W T and Altan T: Journal of Materials Processing Technology, Vol.59 (1996), pp.169-180
Zhang: Journal of Materials Processing Technology, Vol.88-89 (1999), pp.273-278
Hu, et al: Journal of Science and Technology of South China, Vol.22 (1994) No.2, pp.1-10
[3] Sasahara H, Obikawa T and Shirakashi T: Journal of Materials Processing Technology, Vol.62 (1996), pp.448-453
[4] Ceret.ti E, Fallbohmer P, Wu W T and Altan T: Journal of Materials Processing Technology, Vol.59 (1996), pp.169-180
Zhang: Journal of Materials Processing Technology, Vol.88-89 (1999), pp.273-278
Online since: December 2013
Authors: Hui Kai Gao, Jian Meng Huang
Journal of Tribology, 2012, 134: 1-5
Journal of Colloid and Interface Science, 2008, 321: 242–250
Journal of Tribology, 2005, 127: 315-324
[9] Mechanical properties of engineering materials data sheet Editorial Board.
Mechanical engineering materials data sheet[M].
Journal of Colloid and Interface Science, 2008, 321: 242–250
Journal of Tribology, 2005, 127: 315-324
[9] Mechanical properties of engineering materials data sheet Editorial Board.
Mechanical engineering materials data sheet[M].
Online since: December 2018
Authors: Rudolf Kawalla, Alexander Nam, Uwe Prüfert, Marciej Pietrzyk, Ulrich Prahl
Lenard, A study of thermal-mechanical modeling of hot flat rolling, Journal of Materials Shaping Technology 7 (1989) 117–126
Sheppard, Prediction of temperature evolution by FEM during multi-pass hot flat rolling of aluminium alloys, Modelling and Simulation in Materials Science and Engineering 9 (2001) 525–538
Karimi Taheri, Modelling the temperature distribution and microstructural changes during hot rod rolling of a low carbon steel, Journal of Materials Processing Technology 125-126 (2002) 89–96
Mucciardi, Prediction of temperature distribution in the hot rolling of slabs, Modelling and Simulation in Materials Science and Engineering 10 (2002) 185–203
Davies, A study of the heat-transfer coefficient as a function of temperature and pressure, Journal of Materials Processing Technology 41 (1994) 125–142
Sheppard, Prediction of temperature evolution by FEM during multi-pass hot flat rolling of aluminium alloys, Modelling and Simulation in Materials Science and Engineering 9 (2001) 525–538
Karimi Taheri, Modelling the temperature distribution and microstructural changes during hot rod rolling of a low carbon steel, Journal of Materials Processing Technology 125-126 (2002) 89–96
Mucciardi, Prediction of temperature distribution in the hot rolling of slabs, Modelling and Simulation in Materials Science and Engineering 10 (2002) 185–203
Davies, A study of the heat-transfer coefficient as a function of temperature and pressure, Journal of Materials Processing Technology 41 (1994) 125–142