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Online since: April 2009
Authors: T. Mahalingam, Rene Asomoza, K. Sundaram, Velumani Subramaniam, Yong Deak Kim, M. Raja, S. Thanikaikarasan
Cobalt-Nickel (Co-Ni) is one of the important metallic alloys widely used as recording head
materials in computer hard drive industries [2], micro systems technology for manufacturing microactuators,
micro-sensors and micro-inductors [3-7].
Electrodeposited Co-Ni alloys are widely used as active materials for oxygen evolution reaction [8] and the hydrogen evolution reaction [9] in water electrolysis.
Liping Wang, Yan Gao, Qunji Xue, Huiwen Liu, Tao Xu: Applied Surface Science.
N.V.Myung, D.Y.Park, M.Schwartz, K.Nobe, H.Yang, C.K.Yang, J.W.Judy :Sixth International Symposium on Magnetic Materials-Processes and Devices, Proceedings of Electrochemical Society (2000) p.29 [20].
N.V.Myung, Y.D.Park, B.Y.Yoo, T.A.Sumodjo Paulo: Journal of Magnetism and Magnetic Materials Vol.265 (2003) p.189
Electrodeposited Co-Ni alloys are widely used as active materials for oxygen evolution reaction [8] and the hydrogen evolution reaction [9] in water electrolysis.
Liping Wang, Yan Gao, Qunji Xue, Huiwen Liu, Tao Xu: Applied Surface Science.
N.V.Myung, D.Y.Park, M.Schwartz, K.Nobe, H.Yang, C.K.Yang, J.W.Judy :Sixth International Symposium on Magnetic Materials-Processes and Devices, Proceedings of Electrochemical Society (2000) p.29 [20].
N.V.Myung, Y.D.Park, B.Y.Yoo, T.A.Sumodjo Paulo: Journal of Magnetism and Magnetic Materials Vol.265 (2003) p.189
Material Characterization Study on Aluminium Metal Matrix Composites by Enhanced Stir Casting Method
Online since: July 2014
Authors: D. Ravindran, T.M. Chenthil Jegan, M. Dev Anand
Metal Matrix Composites possesses high mechanical properties compared to unreinforced materials.
Introduction Composite materials are produced by two dissimilar materials into a new material that may be better suited for a particular application than either of the original materials alone.
Materials and Methodology The production of 2.5%,5%,7.5% of SiC reinforced AA6061 MMC and B4C reinforced AA6061 MMC and the materials used are discussed in this section.
Materials This section describes the material and the ceramic particles used for reinforcement.
Sprin Science and Business Media, Inc New York, NY, USA. (2006)
Introduction Composite materials are produced by two dissimilar materials into a new material that may be better suited for a particular application than either of the original materials alone.
Materials and Methodology The production of 2.5%,5%,7.5% of SiC reinforced AA6061 MMC and B4C reinforced AA6061 MMC and the materials used are discussed in this section.
Materials This section describes the material and the ceramic particles used for reinforcement.
Sprin Science and Business Media, Inc New York, NY, USA. (2006)
Online since: December 2010
Authors: Yong Yang, Xiu Qing Fu, Min Kang
Oxidation reaction occurs on the anode, and the workpiece materials are dissolved.
All materials are set at the corresponding surface of the model, and the free meshing grid is selected.
Xu: Journal of South China University of Technology (Natural Science Edition) Vol.37 (2009) No.4, p.66-69 [6] J.
Kozak: Journal of Materials Processing Technology Vol.109 (2001) No5: p.354-359 [7] A.
Zybura-Skrabalak: ASME J. of Manufacturing Science and Engineering, PED (1993) No.64, p.713-718 [8] J.Kozak: Journal of Materials ProcessingTechnology Vol.109(1-3) (2001), p.354-359 [9] J.W.
All materials are set at the corresponding surface of the model, and the free meshing grid is selected.
Xu: Journal of South China University of Technology (Natural Science Edition) Vol.37 (2009) No.4, p.66-69 [6] J.
Kozak: Journal of Materials Processing Technology Vol.109 (2001) No5: p.354-359 [7] A.
Zybura-Skrabalak: ASME J. of Manufacturing Science and Engineering, PED (1993) No.64, p.713-718 [8] J.Kozak: Journal of Materials ProcessingTechnology Vol.109(1-3) (2001), p.354-359 [9] J.W.
Online since: January 2014
Authors: Bing Ma, Li Zhen Liu, Xue Feng Bai, He Wang, Li Wei Yang, Chong Wang, Shi Nan Li, Lu Ning Yu, Hui Chen
This process is accomplished by heat passing through the materials.
[9] Zhang Tiejun: Mechanical Engineering Materials (Peking university press,Beijing 2010), p.138-139
[10] Chen Yirui: Basic materials and new materials(Tianjin university press,Tianjin 2010), p.48-50
[11] Gu Zhuoming: Marine engineering materials(China communication Press,Beijing 2010), p.58-62
[12] Xu Xiaohong: Foundations of Materials Science and Engineering(Higher Education Press, Beijing 2008)
[9] Zhang Tiejun: Mechanical Engineering Materials (Peking university press,Beijing 2010), p.138-139
[10] Chen Yirui: Basic materials and new materials(Tianjin university press,Tianjin 2010), p.48-50
[11] Gu Zhuoming: Marine engineering materials(China communication Press,Beijing 2010), p.58-62
[12] Xu Xiaohong: Foundations of Materials Science and Engineering(Higher Education Press, Beijing 2008)
Online since: August 2014
Authors: Heng Sheng Lin, Ying Chieh Lin, Ming Ru Lee
Methods
Materials.
Koç, Investigation of size effects on material behavior of thin sheet metals using hydraulic bulge testing at micro/meso-scales, International Journal of Machine Tools & Manufacture 48 (2008) 1014–1029
Xia, Effect of EDT surface texturing on tribological behavior of aluminum sheet, Journal of Materials Processing Technology 211 (2011) 1643– 1649
Hutchings, Effects of die surface patterning on lubrication in strip drawing, Journal of Materials Processing Technology 209 (2009) 1175–1180
Lin, Effect of Grain Size on Micro Ball Punch Deformation of SUS 304 Stainless Steel, Advanced Materials Research 579 (2012) 445-452.
Koç, Investigation of size effects on material behavior of thin sheet metals using hydraulic bulge testing at micro/meso-scales, International Journal of Machine Tools & Manufacture 48 (2008) 1014–1029
Xia, Effect of EDT surface texturing on tribological behavior of aluminum sheet, Journal of Materials Processing Technology 211 (2011) 1643– 1649
Hutchings, Effects of die surface patterning on lubrication in strip drawing, Journal of Materials Processing Technology 209 (2009) 1175–1180
Lin, Effect of Grain Size on Micro Ball Punch Deformation of SUS 304 Stainless Steel, Advanced Materials Research 579 (2012) 445-452.
Online since: June 2014
Authors: Cosme Roberto Moreira Silva, José A. Araújo, Alexander H. Franco, Palloma V. Muterlle, Jorge L.A. Ferreira
Materials Science and Engineering C; 25:282-289
“A Stress Strain Function for the Fatigue of Metals”, Journal of Materials, ASTM, Vol. 5, No. 4, 99. 767 – 778
[23] American society for testing and materials.
Materials Transactions, Vol. 46, pp. 1570 - 1577. n. 7
Materials Science and Engineering C, Vol. 25, pp. 363-369
“A Stress Strain Function for the Fatigue of Metals”, Journal of Materials, ASTM, Vol. 5, No. 4, 99. 767 – 778
[23] American society for testing and materials.
Materials Transactions, Vol. 46, pp. 1570 - 1577. n. 7
Materials Science and Engineering C, Vol. 25, pp. 363-369
Online since: November 2012
Authors: Zhi Qi Huang, Gang Wang, Zhi Min Yin
EXPERIMENTAL
2.1 Materials
The experimental materials in this paper are 6005 hot extrusion bars provided by Guangdong fenglu aluminum Co.
It follows the fourth strength theory of mechanics of materials, namely distortion energy theory.
Dorward: Journal of Materials Processing Technology Vol. 6(1997).p.25 [7] J.S.
Tsnner: Journal of Materials Processing Technology Vol. 119(2001).p.261 [8].K.E.
He: Materials Science and Engineering A Vol. 478(2008). p.276
It follows the fourth strength theory of mechanics of materials, namely distortion energy theory.
Dorward: Journal of Materials Processing Technology Vol. 6(1997).p.25 [7] J.S.
Tsnner: Journal of Materials Processing Technology Vol. 119(2001).p.261 [8].K.E.
He: Materials Science and Engineering A Vol. 478(2008). p.276
Online since: March 2015
Authors: Qiang Wang, Hui Feng Li, Gen Ban Sun, Lin Na Sun, Fun Bin Jiang
(iv) The Li-rich materials structure will be re-arranged when the first charge above 4.5V, and the rearrangement structure damage the reversibility of the lithium intercalation/deintercalation process [24].
Kim, Journal of Power Sources 244 (2013) 266-271 [3] A.
Yu, Journal of Power Sources 233 (2013) 115-120 [6] M.
Cao, Journal of Power Sources 227 (2013) 106-110 [8] H.
Yamaki, Journal of Power Sources 81–82 1999. 882–886
Kim, Journal of Power Sources 244 (2013) 266-271 [3] A.
Yu, Journal of Power Sources 233 (2013) 115-120 [6] M.
Cao, Journal of Power Sources 227 (2013) 106-110 [8] H.
Yamaki, Journal of Power Sources 81–82 1999. 882–886
Online since: January 2013
Authors: Ming Zhe Xi
Fraser, Laser deposition of compositionally graded titanium-vanadium and titanium-molybdenum alloys, Materials Science and Engineering A352 (2003) 118-128
[2] J.O.
Fonseca, Application of a manufacturing model for the optimization of additive processing of Inconel alloy 690, Journal of Materials Processing Technology 91 (1999) 18–28 [3] R.
Kreja, G. ´ Sliwi´nski, Temperature distribution in laser-clad multi-layers, Materials Science and Engineering A 379 (2004) 313–320 [4] Weixue Tian, Wilson K.S.
Kovacevic, A three dimensional model for direct laser metal powder deposition and rapid prototyping, Journal of Materials Science 38 (2003) 35– 49 [6] M.Z.Xi, Y.Z.Zhang, L.K.Shi, S.Y.Gao, R.Vilar, Analysis of the 3D transient temperature field during laser direct deposition of a 316L stainless steel thin wall, 4th International Conference on Laser Assisted Net Shape Engineering-LANE2004, Sept. 21-24, 2004, Erlangen, Germany, 611-620 [7] L.
Prinz, Thermal stresses and deposition patterns in layered manufacturing, Materials Science and Engineering A317 (2001) 59–64 [9] Zhengqiao Wang, Youlin Wu, Stainless steel, China chemical industry press, (1991), 138-139
Fonseca, Application of a manufacturing model for the optimization of additive processing of Inconel alloy 690, Journal of Materials Processing Technology 91 (1999) 18–28 [3] R.
Kreja, G. ´ Sliwi´nski, Temperature distribution in laser-clad multi-layers, Materials Science and Engineering A 379 (2004) 313–320 [4] Weixue Tian, Wilson K.S.
Kovacevic, A three dimensional model for direct laser metal powder deposition and rapid prototyping, Journal of Materials Science 38 (2003) 35– 49 [6] M.Z.Xi, Y.Z.Zhang, L.K.Shi, S.Y.Gao, R.Vilar, Analysis of the 3D transient temperature field during laser direct deposition of a 316L stainless steel thin wall, 4th International Conference on Laser Assisted Net Shape Engineering-LANE2004, Sept. 21-24, 2004, Erlangen, Germany, 611-620 [7] L.
Prinz, Thermal stresses and deposition patterns in layered manufacturing, Materials Science and Engineering A317 (2001) 59–64 [9] Zhengqiao Wang, Youlin Wu, Stainless steel, China chemical industry press, (1991), 138-139
Online since: March 2016
Authors: Ai Xue Sha, Wei Wei Zheng, Feng Zhang, Yi Min Cui
An overview on the use of titanium in the aerospace industry, Materials Science and Engineering A. 213(1996) 103~114
[2] C.
Materials Science & Engineering A. 635(2015) 77–85 [7] F.Warchomickaa, C.Poletti, M.Stockinger.
Study of the hot deformation behavior in Ti-5Al-5Mo-5V-3Cr-1Zr, Materials Science and Engineering A.528(2011) 8277 [8] F.J.
[9] Yu Yongning, Foundation of Material Science, Higher Education Press.2006 [10] N.
Body-centered cubic metals, The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science.329(1951) 616-635
Materials Science & Engineering A. 635(2015) 77–85 [7] F.Warchomickaa, C.Poletti, M.Stockinger.
Study of the hot deformation behavior in Ti-5Al-5Mo-5V-3Cr-1Zr, Materials Science and Engineering A.528(2011) 8277 [8] F.J.
[9] Yu Yongning, Foundation of Material Science, Higher Education Press.2006 [10] N.
Body-centered cubic metals, The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science.329(1951) 616-635