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Online since: July 2014
Authors: K. Balaji, V.S. Senthil Kumar, S. Deepak Kumar
Transportation:
Transportation of materials between the stations results in losses.
Keeping the materials and appropriate tools in the reachable distance is also reduce the motion wastages. 4.7.
· To reduce the rework of the rejection materials by scrap management system.
· To maintain the shop floor clean and keep the materials and tools in reachable distance.
Deshmukh and Suresh Garg: Lean manufacturing system for medium size manufacturing enterprises: an Indian case, International Journal of Management Science and Engineering Management Vol. 5:5, (2010), p. 362-375 [4] George L.
Keeping the materials and appropriate tools in the reachable distance is also reduce the motion wastages. 4.7.
· To reduce the rework of the rejection materials by scrap management system.
· To maintain the shop floor clean and keep the materials and tools in reachable distance.
Deshmukh and Suresh Garg: Lean manufacturing system for medium size manufacturing enterprises: an Indian case, International Journal of Management Science and Engineering Management Vol. 5:5, (2010), p. 362-375 [4] George L.
Online since: October 2013
Authors: Bao Yu Wang, Le Yi Yang, Bin Zuo
Acknowledgements
The authors would like to gratefully acknowledge the support of the National Natural Science Foundation project (No. 50975023) of China, also this project get the funding support from Beijing laboratory of modern transport metal materials and processing technology.
Materials & Design, 2000, 21(4), p. 271-278 [2] K.
Journal of Materials Processing Technology. 2000, 104, p. 64-73 [4] J.
Journal of Manufacturing Science and Engineering. 2003, 125, p. 753-762 [6] J.
Journal of Materials Processing Technology. 2004, 150, p. 48-55
Materials & Design, 2000, 21(4), p. 271-278 [2] K.
Journal of Materials Processing Technology. 2000, 104, p. 64-73 [4] J.
Journal of Manufacturing Science and Engineering. 2003, 125, p. 753-762 [6] J.
Journal of Materials Processing Technology. 2004, 150, p. 48-55
Online since: June 2014
Authors: Xiao Zhen Liu, Yan Wu, Jie Chen, Xiao Zhou Liu, Wan Wan Zhu
Eu, Sb doped SnO2 and quartz compound conductive powders are prepared by the coprecipitation method with SnCl4·5H2O, SbCl3, Eu2O3 and quartz powders as the raw materials.
The powders of antimony doped tin oxide have been widely used in photovoltaic and optoelectronic devices, flat panel displays, electrochromic materials, electrode materials and catalysts materials of olefin oxidation, oxidative dehydrogenation, and ammoxidation of alkenes, propylene to acrolein and acrylonitrile for their electric and optical advantage properties [1-8].
The compound conductive powders are prepared with quartz powders as the raw materials.
Chen and H.Z.Xiao: Applied Mechanics and Materials Vol. 492 (2014) p. 370 [2] X.Z.
Chen: Journal of Rare Earths Vol. 24 (2006), p. 42 [4] M.
The powders of antimony doped tin oxide have been widely used in photovoltaic and optoelectronic devices, flat panel displays, electrochromic materials, electrode materials and catalysts materials of olefin oxidation, oxidative dehydrogenation, and ammoxidation of alkenes, propylene to acrolein and acrylonitrile for their electric and optical advantage properties [1-8].
The compound conductive powders are prepared with quartz powders as the raw materials.
Chen and H.Z.Xiao: Applied Mechanics and Materials Vol. 492 (2014) p. 370 [2] X.Z.
Chen: Journal of Rare Earths Vol. 24 (2006), p. 42 [4] M.
Online since: February 2013
Authors: Yang Chen, Bao Jun Jia, Qin Zhong Feng, Li Yuan Liu
Institute of High Energy Physics, Chinese Academy of Sciences, Beijing, P.R.
[8] Wu Y., et al., Industrial experiments on desulfurization of flue gases by pulsed corona inducedplasma chemical process, Journal of Electrostatics, 57 (2003), 233–241
[10] Cheng J. et al., Sulfur removal at high temperature during coal combustion in furnaces: a review, Progress in Energy and Combustion Science, 29(2003), 381~405 [11] Wendt J.
O., et. al., A dual-use of DBD plasma for simultaneous NOx and SO2 removal from coal-combustion flue gas, Journal of Hazardous Materials, (2011) 185: 1280~1286) [22] Radoiu M.T., et al., Emission control of SO2 and NOx by irradiation methods, Journal of Hazardous Materials, B97(2003), 145~158 [23] Yu Q., et al., Simultaneous removal of NO and SO2 from dry gas stream using non-thermal plasma, Journal of Environmental Sciences, 19(2007), 1393~1397 [24] Lowke J.J., et al., Theoretical analysis of removal of oxides of sulphur and nitrogen in pulsed operation of electrostatic precipitators, IEEE Trans.
Plasma Process, 32(2012), 969~977 [37] Wang M.Y., et al., Oxidation of gaseous elemental mercury in a high voltage discharge reactor, Journal of Environmental Sciences, 21(2009), 1652~1657 [38] Byun Y., et al., Polarity effect of pulsed corona discharge for the oxidation of gaseous elemental mercury, Chemosphere, 84(2011), 1285~1289 [39] Byun Y., et al., Removal mechanism of elemental mercury by using non-thermal plasma, Chemosphere, 83 (2011), 69~75 [40] Jeong J., et al., Removal of gaseous elemental mercury by dielectric barrier discharge, Chemosphere, 68(2007), 2007~2010 [41] Xu F., et al., Simultaneous oxidation of NO, SO2 and Hg0 from flue gas by pulsed corona discharge, Journal of Environmental Sciences, 21 (2009), 328~332 [42] Liang, X., et al., Mercury and other trace elements removal characteristics of DC and pulse-energized electrostatic precipitator, IEEE Trans.
[8] Wu Y., et al., Industrial experiments on desulfurization of flue gases by pulsed corona inducedplasma chemical process, Journal of Electrostatics, 57 (2003), 233–241
[10] Cheng J. et al., Sulfur removal at high temperature during coal combustion in furnaces: a review, Progress in Energy and Combustion Science, 29(2003), 381~405 [11] Wendt J.
O., et. al., A dual-use of DBD plasma for simultaneous NOx and SO2 removal from coal-combustion flue gas, Journal of Hazardous Materials, (2011) 185: 1280~1286) [22] Radoiu M.T., et al., Emission control of SO2 and NOx by irradiation methods, Journal of Hazardous Materials, B97(2003), 145~158 [23] Yu Q., et al., Simultaneous removal of NO and SO2 from dry gas stream using non-thermal plasma, Journal of Environmental Sciences, 19(2007), 1393~1397 [24] Lowke J.J., et al., Theoretical analysis of removal of oxides of sulphur and nitrogen in pulsed operation of electrostatic precipitators, IEEE Trans.
Plasma Process, 32(2012), 969~977 [37] Wang M.Y., et al., Oxidation of gaseous elemental mercury in a high voltage discharge reactor, Journal of Environmental Sciences, 21(2009), 1652~1657 [38] Byun Y., et al., Polarity effect of pulsed corona discharge for the oxidation of gaseous elemental mercury, Chemosphere, 84(2011), 1285~1289 [39] Byun Y., et al., Removal mechanism of elemental mercury by using non-thermal plasma, Chemosphere, 83 (2011), 69~75 [40] Jeong J., et al., Removal of gaseous elemental mercury by dielectric barrier discharge, Chemosphere, 68(2007), 2007~2010 [41] Xu F., et al., Simultaneous oxidation of NO, SO2 and Hg0 from flue gas by pulsed corona discharge, Journal of Environmental Sciences, 21 (2009), 328~332 [42] Liang, X., et al., Mercury and other trace elements removal characteristics of DC and pulse-energized electrostatic precipitator, IEEE Trans.
Online since: July 2012
Authors: Li Qing Zhao, Xu Xin Zhao, Xiao Fang Yue, Hong Yuan Sun
Fermentation is technically simple and it generates H 2 from carbohydrate materials obtained as refuse or waste products[4],in which key enzymes are hydrogenases.
Acknowledgements This work was financially supported by Key Laboratory of New Lithium-ion Battery and Mesoporous Materials, the National Natural Science Foundation of China(T50906058T), Science and Technology Project of Guangdong Province(T2011B010100035T), References [1]Qunhui Wang,Hongzhi Ma, Xuming Wang,Yongzhen Ji.Modern Chemical Industry,2004,24(7): 56-59
Critical Reviews in Environmental Science and Technology 2007;37(1):1-39
Water science and technology, 2000,42(4):345–350
Water science and technology. 2004,49(4):223–228
Acknowledgements This work was financially supported by Key Laboratory of New Lithium-ion Battery and Mesoporous Materials, the National Natural Science Foundation of China(T50906058T), Science and Technology Project of Guangdong Province(T2011B010100035T), References [1]Qunhui Wang,Hongzhi Ma, Xuming Wang,Yongzhen Ji.Modern Chemical Industry,2004,24(7): 56-59
Critical Reviews in Environmental Science and Technology 2007;37(1):1-39
Water science and technology, 2000,42(4):345–350
Water science and technology. 2004,49(4):223–228
Online since: June 2006
Authors: Ho Sung Kim, Nam Ho Kim
Yee: Journal of Materials Science Vol. 21 (1986), p. 2475
Kim: Journal of Applied Polymer Science, 2005, Accepted for publication
Kim: Journal of Applied Polymer Science, 2005, Accepted for publication
Schiraldi: Journal of Applied Polymer Science, Private communication, 7 March 2005
Elber: Damage Tolerance in Aircraft Structures, ASTM STP 486, American Society for Testing and Materials, 1971, p. 230
Kim: Journal of Applied Polymer Science, 2005, Accepted for publication
Kim: Journal of Applied Polymer Science, 2005, Accepted for publication
Schiraldi: Journal of Applied Polymer Science, Private communication, 7 March 2005
Elber: Damage Tolerance in Aircraft Structures, ASTM STP 486, American Society for Testing and Materials, 1971, p. 230
Online since: March 2018
Authors: Pattela Srinivasa Rama Sreekanth, Santosh Kumar Sahu, Nitesh Dhar Badgayan, Sutanu Samanta
Introduction
Polymeric materials are cynosure of multifarious researchers owing to its light weight, corrosion resistance and chemical inertness.
Materials and Methods Materials.
Kanagaraj: Journal of The Mechanical Behavior of Biomedical Materials Vol. 18 (2013), p. 140
Wang: Journal of Bionic Engineering Vol. 11 (2014), p. 144
Mandelkern: Journal of Polymer Science Vol. 22 (1984), p. 407.
Materials and Methods Materials.
Kanagaraj: Journal of The Mechanical Behavior of Biomedical Materials Vol. 18 (2013), p. 140
Wang: Journal of Bionic Engineering Vol. 11 (2014), p. 144
Mandelkern: Journal of Polymer Science Vol. 22 (1984), p. 407.
Online since: September 2014
Authors: Andreas Chrysanthou, Z. Shen, Y.G. Xu
Curtis (1996): Composites Science and Technology, vol.56, p.677 – 84
Yang (2002): Journal of Composite Materials, vol.36, p.851 – 71
Haritos (2013): Key Engineering Materials, vol.525-26, p.521 – 4
Chrysanthou (2014), Key Engineering Materials, vols.577-578, p.545 – 8
Shen (2008): Mechanics of Materials, vol.40, p.183 – 94
Yang (2002): Journal of Composite Materials, vol.36, p.851 – 71
Haritos (2013): Key Engineering Materials, vol.525-26, p.521 – 4
Chrysanthou (2014), Key Engineering Materials, vols.577-578, p.545 – 8
Shen (2008): Mechanics of Materials, vol.40, p.183 – 94
Online since: June 2013
Authors: Yong Gao Yin, Yao Chen, Xiao Song Zhang
Ice slurry is thought to be an ideal material for ice-storage because of its good performance on cold storage and transport.
The chilled water and cold air are the materials of the evaporative supercooling cycle.
Acknowledgement This paper is supported by the National Natural Science Foundation of China (50976021) and the 12th Five Year Science and Technology Support Key Project of China (2011BAJ03B05).
References [1] E.Stamatiou, J.W.Meewisse, M.Kawaji, Ice slurry generation involving moving parts, International Journal of Refrigeration 28 (2005) 60–72
[5] Manuel R.Conde, Properties of aqueous solutions of lithium and calcium chlorides: formulations for use in air conditioning equipment design, International Journal of Thermal Sciences 43 (2004) 367–382
The chilled water and cold air are the materials of the evaporative supercooling cycle.
Acknowledgement This paper is supported by the National Natural Science Foundation of China (50976021) and the 12th Five Year Science and Technology Support Key Project of China (2011BAJ03B05).
References [1] E.Stamatiou, J.W.Meewisse, M.Kawaji, Ice slurry generation involving moving parts, International Journal of Refrigeration 28 (2005) 60–72
[5] Manuel R.Conde, Properties of aqueous solutions of lithium and calcium chlorides: formulations for use in air conditioning equipment design, International Journal of Thermal Sciences 43 (2004) 367–382
Online since: September 2011
Authors: Hui Shi, Jian Ping Wang, Xiao Na Chen, Zhi Yun Wu
International Journal of Clothing Science and Technology, 2006, 18(3): 166-178
International Journal of Clothing Science and Technology, 2010, 22(2/3): 88-100
International Journal of Clothing Science and Technology Vol. 19 No. 5, 2007 pp. 361-373
International Journal of Clothing Science and Technology, Vol. 9 No. 4, 1997, pp. 311-325
Journal of Materials Processing Technology 210 (2010) :116–121
International Journal of Clothing Science and Technology, 2010, 22(2/3): 88-100
International Journal of Clothing Science and Technology Vol. 19 No. 5, 2007 pp. 361-373
International Journal of Clothing Science and Technology, Vol. 9 No. 4, 1997, pp. 311-325
Journal of Materials Processing Technology 210 (2010) :116–121