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Online since: April 2015
Authors: Hsiu Lu Chiang, Tsu Liang Chou, Tze Chi Hsu, Jing Hong Chen
Surface roughness and magnetic effect of magnetized journal bearings lubricated with ferrofluid
Tze-Chi Hsu1, a, Jing-Hong Chen2, b, Tsu-Liang Chou3, Hsin-Lu Chiang3
1Department of Mechanical Engineering, Yuan-Ze Unversity, Chung-Li 320, Taiwan, ROC
2National Chung-Shan Institute of Science & Technology, P.O.
Ferrofluids are widely applied in bearing systems due to their unique characteristics possessing both the powerful magnetism of solid magnetic materials as well as the liquidity of fluids [1-4].
When λ<0.6, the surface roughness behavior of the journal bearing is similar to the short journal bearing.
When λ>1.8, the surface roughness behavior of the journal bearing is similar to the long journal bearing.
Journal of marine science and technology, Vol.22(2014), No. 2, p. 154-162
Ferrofluids are widely applied in bearing systems due to their unique characteristics possessing both the powerful magnetism of solid magnetic materials as well as the liquidity of fluids [1-4].
When λ<0.6, the surface roughness behavior of the journal bearing is similar to the short journal bearing.
When λ>1.8, the surface roughness behavior of the journal bearing is similar to the long journal bearing.
Journal of marine science and technology, Vol.22(2014), No. 2, p. 154-162
Online since: October 2010
Authors: Xian Li, Wan Jun Ye, Geng She Yang, Ning Zhuang
Treatment Materials for Spalling on Loess Slope
Wanjun Ye1,a, Gengshe Yang1,b,Xian LI 2,c, Ning Zhuang3
1Xi’an University of Science and Technology,Xi’an Shanxi,710054, China,
2Chang’an University,Xi’an Shanxi,710054, China
3Hohai University,Nanjing Jiangsu,210098, China
ayewanjun2004@126.com, byanggs@chd.edu.cn, cdclixa@chd.edu.cn
Keywords: Loess; slope; spalling; treatment materials;test
Abstract.
This paper proposes treatment materials for medium thickness spalling on loess slope.
Conclusions This paper proposes a treatment materials for medium thickness spalling on loess slope.
Journal of Northwest University (Natural Science Edition),Vol. 38 No6. 2(2008),p. 983
Journal of Xi’an university of science and technology, Vol. 28 No4. 2(2008),p. 694.
This paper proposes treatment materials for medium thickness spalling on loess slope.
Conclusions This paper proposes a treatment materials for medium thickness spalling on loess slope.
Journal of Northwest University (Natural Science Edition),Vol. 38 No6. 2(2008),p. 983
Journal of Xi’an university of science and technology, Vol. 28 No4. 2(2008),p. 694.
Online since: August 2018
Authors: Teewara Suwan
Rangan: Journal of materials science, 42(9) (2007), pp.3124-3130
Chindaprasirt: Journal of Minerals, Metallurgy, and Materials, 18(3) (2011), p.364
Khater: Journal of Materials in Civil Engineering, 24(1)(2012), pp.92-101
Palomo: Journal of Materials Science, 42(9)(2007), pp.3055-3065
Perdikatsis: Journal of Materials Science, 42(9)(2007), pp.3073-3082
Chindaprasirt: Journal of Minerals, Metallurgy, and Materials, 18(3) (2011), p.364
Khater: Journal of Materials in Civil Engineering, 24(1)(2012), pp.92-101
Palomo: Journal of Materials Science, 42(9)(2007), pp.3055-3065
Perdikatsis: Journal of Materials Science, 42(9)(2007), pp.3073-3082
Online since: August 2022
Authors: Lyudmila Samchuk, Viktoriya Pasternak, Artem Ruban, Oleksandr Chernenko, Nataliia Morkovska
Materials Science Forum, 1038 (2021) 33-39
Materials Science Forum, 1006 (2020) 47-54
Journal of materials research and technology, 9 (2020) 15360-15380
Materials Science Forum, 1038 (2021) 51-60
Materials Science Forum, 1038 (2021) 15-24.
Materials Science Forum, 1006 (2020) 47-54
Journal of materials research and technology, 9 (2020) 15360-15380
Materials Science Forum, 1038 (2021) 51-60
Materials Science Forum, 1038 (2021) 15-24.
Online since: June 2015
Authors: V.K. Bupesh Raja, Rajan Nikhil, S. Prabhu
Applications of Cellular Materials – An Overview
Prabhu.S1,a,*, Bupesh Raja.V.K2,b, Nikhil Rajan3,c
1, 3Department of Mechanical and Production Engineering, Sathyabama University, Chennai, India
2Department of Automobile Engineering, Sathyabama University, Chennai, India
a*prabhuimai@gmail.com, bbupeshvk@gmail.com, crajannikhil@outlook.com
Keywords: Cellular materials, transport industry, building industry, functional applications
Abstract
The research in material science had led to the discovery of new materials; but the real challenge lies in finding suitable application for those materials to be used in various engineering fields.
Art of science, Materials Science-Poland, Vol. 25, No. 3, 2007 [5] B H Smith, S Szyniszewski, J.F.
Arwade, Steel foam for structures: A review of applications, manufacturing and material properties Journal of Constructional Steel Research, 2011
[8] J Manoj Watane, Satyapalt.Warghat, R Roshan Shrirao, Aluminium foam for automobiles:-A review of Manufacturing techniques, Application and Material properties, Review Article International Journal of Pure and Applied Research in Engineering and Technology, 2013; ISSN: 2319-507X, Volume 1(8): 101-112 [9] A Salimon, Y Br´echet, M F Ashby, A L Greer, Potential applications for steel and titanium metal foams, mechanical behaviour of cellular solids, Journal of materials science 40 (2005)5793–5799 [10] G Srinath, Aravind Vadiraj, G.
Logesh, V.K.Bupesh Raja, Investigation of Mechanical Properties of AA8011/PP/AA1100 Sandwich Materials, International Journal of ChemTech Research CODEN (USA), ISSN : 0974-4290, Vol.6, No.3, pp 1749-1752, May-June 2014 [13] John Banhart, Light-metal foams – history of innovation and technological challenges, Advanced Engineering Materials (in press 2013).
Art of science, Materials Science-Poland, Vol. 25, No. 3, 2007 [5] B H Smith, S Szyniszewski, J.F.
Arwade, Steel foam for structures: A review of applications, manufacturing and material properties Journal of Constructional Steel Research, 2011
[8] J Manoj Watane, Satyapalt.Warghat, R Roshan Shrirao, Aluminium foam for automobiles:-A review of Manufacturing techniques, Application and Material properties, Review Article International Journal of Pure and Applied Research in Engineering and Technology, 2013; ISSN: 2319-507X, Volume 1(8): 101-112 [9] A Salimon, Y Br´echet, M F Ashby, A L Greer, Potential applications for steel and titanium metal foams, mechanical behaviour of cellular solids, Journal of materials science 40 (2005)5793–5799 [10] G Srinath, Aravind Vadiraj, G.
Logesh, V.K.Bupesh Raja, Investigation of Mechanical Properties of AA8011/PP/AA1100 Sandwich Materials, International Journal of ChemTech Research CODEN (USA), ISSN : 0974-4290, Vol.6, No.3, pp 1749-1752, May-June 2014 [13] John Banhart, Light-metal foams – history of innovation and technological challenges, Advanced Engineering Materials (in press 2013).
Online since: June 2014
Authors: Guo Bi, Jing Lin, Ping Guo Zhang, Lin Mai
Scientific research of space life sciences, space materials, space astronomy and space physics in microgravity is under way.
References [1] C Chen: Journal of the American Society for Information Science and Technology.
[15] Risheng Xi: Chinese Journal of Space Science.
[16] Feuerbacher B, Hamacher H, Naumann R J: Material Science in Space(1986)
[17] Walter H U: Fluid Science and Materials Science in Space(1987)
References [1] C Chen: Journal of the American Society for Information Science and Technology.
[15] Risheng Xi: Chinese Journal of Space Science.
[16] Feuerbacher B, Hamacher H, Naumann R J: Material Science in Space(1986)
[17] Walter H U: Fluid Science and Materials Science in Space(1987)
Online since: August 2014
Authors: Yan Hong Li, Sen Liang, Chao Zhang
Preparation and Application of Morph Genetic Materials in the Field of Environment
Sen Liang1, a, Yanhong Li1,b and Chao Zhang1,c
1 College of environmental science and engineering, Guilin University of Technology, China
a309363472@qq.com, b331842901@qq.com, c357728814@qq.com
Keywords: Morph genetic materials, Synthesis methods, Functional materials, Asorption
Abstract.
And it has become a hotspot in materials science and environmental science in recent years[23].
China Science. 2004, 34(7): 721-729
Journal of Nanoparicle Research , 2010 , 12(4) : 1 389 – 1 400
Journal of Materials Chemistry , 2009 , 19(46) : 8 741 – 8 746
And it has become a hotspot in materials science and environmental science in recent years[23].
China Science. 2004, 34(7): 721-729
Journal of Nanoparicle Research , 2010 , 12(4) : 1 389 – 1 400
Journal of Materials Chemistry , 2009 , 19(46) : 8 741 – 8 746
Online since: October 2014
Authors: Jin Hu, Xiao Qin Zhu, Hai Yang Ni, Yu Bie, Li Meng Chen, Liang Chen
Vol.1 (2005), p.495
[3] X.Yu, X.F.Hu and Z.H.Huang: Journal of Functional Materials (in Chinese).
Vol.89 (2005), p.297 [9] C.Z.Chuai and Y.Cheng: Journal of North University of China (Natural Science) (in Chinese).
Vol.22 (1991), p.231 [11] Q.D.Wang, L.M.Dong, Y.X,Dai, et al.: Journal of Beijing Technology and Business University (Natural Science) (in Chinese).
Vol.24 (2008), p.63 [18] H.J.Li, J.J.Cheng and J.P.He: Journal of Nanjing University of Technology (Natural Science) (in Chinese).
Vol.30 (2009), p.102 [21] W.Shi and J.P.Hou: Journal of Building Materials (in Chinese).
Vol.89 (2005), p.297 [9] C.Z.Chuai and Y.Cheng: Journal of North University of China (Natural Science) (in Chinese).
Vol.22 (1991), p.231 [11] Q.D.Wang, L.M.Dong, Y.X,Dai, et al.: Journal of Beijing Technology and Business University (Natural Science) (in Chinese).
Vol.24 (2008), p.63 [18] H.J.Li, J.J.Cheng and J.P.He: Journal of Nanjing University of Technology (Natural Science) (in Chinese).
Vol.30 (2009), p.102 [21] W.Shi and J.P.Hou: Journal of Building Materials (in Chinese).
Online since: June 2011
Authors: Yu Bin Jia, Bin Zhen Zhang, Yin Hua Lei, Qin Wen Huang, Yi Long Hao, Shi Tao Wang
A series of shock experiments were carried out to test the performance of these two materials.
Aluminum foam and metal rubber are believed to be promising cushion materials for microaccelerometer. 1.
Experimental results indicated that aluminum foam and metal rubber provide significant energy absorption capability and have the potential as cushion materials for microaccelerometers. 2 Cushion materials The cushion performance of a material is determined by its cushion efficiency.
Journal of Materials Science,2001, 36: p. 2773-2786
P.: Deformation and energy absorption characteristic of high strength cellular A1 alloy.Chinese Journal of Materials Research, 2002, 16: p. 473-478
Aluminum foam and metal rubber are believed to be promising cushion materials for microaccelerometer. 1.
Experimental results indicated that aluminum foam and metal rubber provide significant energy absorption capability and have the potential as cushion materials for microaccelerometers. 2 Cushion materials The cushion performance of a material is determined by its cushion efficiency.
Journal of Materials Science,2001, 36: p. 2773-2786
P.: Deformation and energy absorption characteristic of high strength cellular A1 alloy.Chinese Journal of Materials Research, 2002, 16: p. 473-478
Online since: July 2011
Authors: Dong Li Li, Wen Cai Xu, Ya Bo Fu
A method of reducing volatile compounds in polypropylene packaging materials
Dongli Li 1, a, Wencai Xu 1,b and Yabo Fu1,c
1 Beijing Key Lab. of Printing & Packaging Materials and Technology
Beijing Institute of Graphic Communication, Beijing 102600, China
a lidongli@bigc.edu.cn, b xuwencai@bigc.edu.cn, c fuyabo@bigc.edu.cn
Keywords: packaging materials, nano-modification, printing ink, volatile compounds, food safety.
With many of the multilayer packaging materials adhesives are used to bind the layers together.
These organic solvents from adhesives and print inks can adsorbed by multilayer packaging materials and transfer from packaging materials to foodstuff.
The blended raw materials were melt mixing in twin-screw extruder at 160~220˚C.
De Candia: Journal of Applied Polymer Science Vol.57 (1995), P.533 [20] Kitty S.M.
With many of the multilayer packaging materials adhesives are used to bind the layers together.
These organic solvents from adhesives and print inks can adsorbed by multilayer packaging materials and transfer from packaging materials to foodstuff.
The blended raw materials were melt mixing in twin-screw extruder at 160~220˚C.
De Candia: Journal of Applied Polymer Science Vol.57 (1995), P.533 [20] Kitty S.M.