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Online since: July 2014
Authors: Srikar Potnuru, Susant Kumar Sahoo, Santosh Kumar Sahoo, Raviteja Vinjamuri
Osakada: History of plasticity and metal forming analysis, Journal of Materials Processing Technology, Vol. 210 (2010), pp. 1436-1454
Aleem: Extrusion of axi-symmetric bi-metallic tubes: some experiments using hollow billets and the application of a generalized slab method of analysis, International Journal of Mechanical Sciences, Vol. 43 (2001), pp. 2857-2882
MaioQuan: Simulation of Cold forging process by the DEFORM 3D system, Journal of Material Processing and Technology Vol. 35 (1992), pp. 357-370
Bae: A UBET analysis of non-axisymmetric forward and backward extrusion, Journal of Materials Processing Technology Vol. 113 (2001), pp. 103-108
Ebrahimi: Analysis of forward-backward radial extrusion process, Materials and Design Vol. 30 (2009), pp. 2152-2157.
Aleem: Extrusion of axi-symmetric bi-metallic tubes: some experiments using hollow billets and the application of a generalized slab method of analysis, International Journal of Mechanical Sciences, Vol. 43 (2001), pp. 2857-2882
MaioQuan: Simulation of Cold forging process by the DEFORM 3D system, Journal of Material Processing and Technology Vol. 35 (1992), pp. 357-370
Bae: A UBET analysis of non-axisymmetric forward and backward extrusion, Journal of Materials Processing Technology Vol. 113 (2001), pp. 103-108
Ebrahimi: Analysis of forward-backward radial extrusion process, Materials and Design Vol. 30 (2009), pp. 2152-2157.
Online since: April 2008
Authors: Yue Qing Sun, Yi Bin Chen, Shu Huang, Jian Zhong Zhou
Material properties.
References [1] Kyrsanidi.An.K, Kermanidis.Th.B and Pantelakis.Sp.G.: Journal of Materials Processing Technology, Vol. 87(1999), p.281-p.290
[3] Cheng P J, Lin S C: Journal of Materials Processing Technology, Vol.101 (2000), p.260-p.267
Maekawa, et al: Journal of Manufacturing Science and Engineering, Vol. 123 (2001), p.405-p.410
Lawrence Yao: Journal of Manufacturing Science and Engineering, Vol. 126 (2004), p.217-p.225
References [1] Kyrsanidi.An.K, Kermanidis.Th.B and Pantelakis.Sp.G.: Journal of Materials Processing Technology, Vol. 87(1999), p.281-p.290
[3] Cheng P J, Lin S C: Journal of Materials Processing Technology, Vol.101 (2000), p.260-p.267
Maekawa, et al: Journal of Manufacturing Science and Engineering, Vol. 123 (2001), p.405-p.410
Lawrence Yao: Journal of Manufacturing Science and Engineering, Vol. 126 (2004), p.217-p.225
Online since: April 2012
Authors: Qi Feng Wang, Cong Bo Li
Acknowledgments
This Research is supported by the national Natural Science Foundation of China (No.51105395) and the Natural Science Foundation Project of Ningbo (No. 2011A610168).
[2] Guide Jr., V.D.R: Journal of Operations Management.
[5] Ketzenberg, M: European Journal of Operational Research.
[8] Zikopoulos, C., Tagaras, G: European Journal of Operational Research.
[9] Teunter, R., Flapper, S: European Journal of Operational Research.
[2] Guide Jr., V.D.R: Journal of Operations Management.
[5] Ketzenberg, M: European Journal of Operational Research.
[8] Zikopoulos, C., Tagaras, G: European Journal of Operational Research.
[9] Teunter, R., Flapper, S: European Journal of Operational Research.
Online since: July 2014
Authors: Yun Chi Chen, Fang Li, Qiu Cheng Wang
Journal of Materials Processing Technology ,2005. 162 ,156~162
[3] Kim T J, Yang D Y.
International Journal of Mechanical Sciences, 2000,42: 1271-1286 [4] Kathryn Jackson, Julian Allwood.
Journal of Materials processing technology 2007
Journal of Materials Processing Technology ,2005. 162 ,156~162 [7] Kathryn Jackson, Julian Allwood.
Journal of Materials processing technology 2007
International Journal of Mechanical Sciences, 2000,42: 1271-1286 [4] Kathryn Jackson, Julian Allwood.
Journal of Materials processing technology 2007
Journal of Materials Processing Technology ,2005. 162 ,156~162 [7] Kathryn Jackson, Julian Allwood.
Journal of Materials processing technology 2007
Online since: May 2012
Authors: Zhao Hua Jiang, Dong Yun Ma, Yu Guang Lv, Ying Wang, Yun Jie Zhang, Huan Yuan, Hong Liu, Yong Chang Zhu, Wei Fang
Introduction
Recently a particular attention has been given to the luminenscene of rare earth complex as a kind of functional materials[1,2].
Generaly luminescence of rare earth ions has the advantages of extensive intensity,narrow band,long lifetime and being sensitized by appropriate organic ligands, so such complexes with organic ligands have been widely used in light-emitting materials, biology, medicine fluorescence immunoassay,optical display materials and other fields [3-6].
Our study will provide some usefull information on luminescence reserches about europium HTTA formed complexes,and promote their application and development in red display materials .
The present study shows great promise for Eu(TTA)3(TPPO)2 as red-emitting display materials.
Acknowledgments This work was supported by the Nature Science Foundation of Heilongjiang Province of China (Grant Nos.
Generaly luminescence of rare earth ions has the advantages of extensive intensity,narrow band,long lifetime and being sensitized by appropriate organic ligands, so such complexes with organic ligands have been widely used in light-emitting materials, biology, medicine fluorescence immunoassay,optical display materials and other fields [3-6].
Our study will provide some usefull information on luminescence reserches about europium HTTA formed complexes,and promote their application and development in red display materials .
The present study shows great promise for Eu(TTA)3(TPPO)2 as red-emitting display materials.
Acknowledgments This work was supported by the Nature Science Foundation of Heilongjiang Province of China (Grant Nos.
Online since: July 2020
Authors: Rizwan Nasir, Hilmi Mukhtar, Dzeti Farhah Mohshim, Nabilah Fazil
Experimental
Materials.
Polymer-Plastics Technology and Materials, 2019. 58(6): p. 678-689
Journal of Membrane Science, 2015. 483: p. 84-93
Journal of membrane science, 2013. 425: p. 235-242
Journal of Membrane Science, 2007. 294(1-2): p. 147-158.
Polymer-Plastics Technology and Materials, 2019. 58(6): p. 678-689
Journal of Membrane Science, 2015. 483: p. 84-93
Journal of membrane science, 2013. 425: p. 235-242
Journal of Membrane Science, 2007. 294(1-2): p. 147-158.
Online since: June 2018
Authors: P. Shreenivasa Rao, P.V.J. Mohan Rao, Y. Srinivasa Rao
Ngoi, Dry machining: machining of the future, Journal of Material Processing Technology 101 (3) (2000) 287-291
Liang, Modelling of cutting temperature in near-dry machining, Journal of Manufacturing Science and Engineering 128(2006) 416-424
Dhars, Performance evaluation of minimum quantity lubrication by vegetable oil in terms of cutting force, cutting zone temperature, tool wear, job dimension and surface finish in turning AISI-1060 steel, Journal of Zhejiang University-Science A7 s(11) (2006) 1790-1 [10] M.I.
Nurul Amin, Effectiveness of cryogenic machining with modified tool holder, Journal of Materials Processing Technology 185 (2007) 91-96
Rao, Performance improvement of grinding of SiC using graphite as a solid lubricant, Materials and Manufacturing Processes 19 (2) (2004) 177-186
Liang, Modelling of cutting temperature in near-dry machining, Journal of Manufacturing Science and Engineering 128(2006) 416-424
Dhars, Performance evaluation of minimum quantity lubrication by vegetable oil in terms of cutting force, cutting zone temperature, tool wear, job dimension and surface finish in turning AISI-1060 steel, Journal of Zhejiang University-Science A7 s(11) (2006) 1790-1 [10] M.I.
Nurul Amin, Effectiveness of cryogenic machining with modified tool holder, Journal of Materials Processing Technology 185 (2007) 91-96
Rao, Performance improvement of grinding of SiC using graphite as a solid lubricant, Materials and Manufacturing Processes 19 (2) (2004) 177-186
Online since: October 2011
Authors: Xiao Chun Wang, Ling Zhao, Yuan Liang, Xin De Cao
School of Environmental Science and Engineering, Suzhou University of Science and Technology, Suzhou 215011, China;
3.
The objective of this study is to immobilize Pb, Cu, and Zn in a multi-metal contaminated soil using triple superphosphate fertilizer (TSP) and phosphate rock tailing (PR) materials, alone and in combination.
Introduction Phosphate-bearing materials, as cost-effective amendments, have widely been used to immobilize heavy metals in soils, especially for Pb immobilization.
Materials and Methods Soil.
,Amal, R. et al: Journal of Hazardous Materials.120:101-111(2005)
The objective of this study is to immobilize Pb, Cu, and Zn in a multi-metal contaminated soil using triple superphosphate fertilizer (TSP) and phosphate rock tailing (PR) materials, alone and in combination.
Introduction Phosphate-bearing materials, as cost-effective amendments, have widely been used to immobilize heavy metals in soils, especially for Pb immobilization.
Materials and Methods Soil.
,Amal, R. et al: Journal of Hazardous Materials.120:101-111(2005)
Online since: October 2014
Authors: Michio Yamawaki, Yuji Arita, Takuya Yamamoto, Fumihiro Nakamori, Kazuhito Ohsawa
On the contrary, uranium is one of the highest capacity hydrogen storage materials.
Yamawaki, the top author of this paper, and his co-workers previously proposed a surplus electricity storage system utilizing depleted uranium as a base storage material[1,2].
The figure indicates that the desorption pressure for the reaction (2) reaches around 105Pa at 400 K, which is sufficiently high for hydrogen storage use of the material.
Acknowledgements The study was partially supported by Grants-in-Aid for Scientific Research (No.25420903) from the Ministry of Education, Culture, Sports, Science and Technology of Japan.
Danis et al., Journal of Physics: Conference Series, 303 (2011) 012011
Yamawaki, the top author of this paper, and his co-workers previously proposed a surplus electricity storage system utilizing depleted uranium as a base storage material[1,2].
The figure indicates that the desorption pressure for the reaction (2) reaches around 105Pa at 400 K, which is sufficiently high for hydrogen storage use of the material.
Acknowledgements The study was partially supported by Grants-in-Aid for Scientific Research (No.25420903) from the Ministry of Education, Culture, Sports, Science and Technology of Japan.
Danis et al., Journal of Physics: Conference Series, 303 (2011) 012011
Online since: May 2018
Authors: Gao Sheng Fu, Jun De Wang, Kai Huai Yang, Shao Yi Lin, Chao Zeng Cheng, Huo Sheng Wang, Li Li Song, Gui Qing Chen
The existence of these micro-defects accelerate the material breaking process, eventually leading to the mechanical properties of materials decreased.
Polina, Weak increase of the dynamic tensile strength of aluminum melt at the insertion of refractory inclusions, Computational Materials Science, 2016, 114: 178-182
Cheng, Effects of hot deformation parameters on microstructures and hardness of 3003 aluminum alloys, Materials Science and Technology, 2012, 20 (5): 116-120
Zou, Experimental Research on dynamic recrystallization of 3003 aluminum alloy, Journal of Materials Engineering, 2011, 8: 77-81
Kaszuwara, Metal particles size influence on graded structure in composite Al2O3-Ni, Materials and technology, 2016, 50 (4): 537–541
Polina, Weak increase of the dynamic tensile strength of aluminum melt at the insertion of refractory inclusions, Computational Materials Science, 2016, 114: 178-182
Cheng, Effects of hot deformation parameters on microstructures and hardness of 3003 aluminum alloys, Materials Science and Technology, 2012, 20 (5): 116-120
Zou, Experimental Research on dynamic recrystallization of 3003 aluminum alloy, Journal of Materials Engineering, 2011, 8: 77-81
Kaszuwara, Metal particles size influence on graded structure in composite Al2O3-Ni, Materials and technology, 2016, 50 (4): 537–541