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Online since: December 2011
Authors: Yu Ru Chen, Long Sun Chao, Fang Chun Wang
In a casting process, the temperature and concentration fields will affect the microstructures of materials and this influence is the key point of improving their mechanical and physical properties.
Introduction The solidification process of a casting is strongly related to both fundamental physics and applied materials science.
Cadirli, E. and Gunduz, M., 2000, “The Directional Solidification of Pb-Sn Alloys,” Journal of Materials Science, Vol.35, No.15, pp.3837-3848. 2.
N. and Trivedi, R., 2002, “Primary Dendrite Distribution and Disorder during Directional solidification of Pb-Sb Alloys,” Metallurgical and Materials Transactions, Vol.33, No.11, pp.3499-3510. 4.
A. and Garcia, A., 2003, “Cellular Spacings in Unsteady-State Directionally Solidified Sn-Pb Alloys,” Materials Science and Engineering, Vol.361, Issues 1-2, pp.111-118. 5.
Introduction The solidification process of a casting is strongly related to both fundamental physics and applied materials science.
Cadirli, E. and Gunduz, M., 2000, “The Directional Solidification of Pb-Sn Alloys,” Journal of Materials Science, Vol.35, No.15, pp.3837-3848. 2.
N. and Trivedi, R., 2002, “Primary Dendrite Distribution and Disorder during Directional solidification of Pb-Sb Alloys,” Metallurgical and Materials Transactions, Vol.33, No.11, pp.3499-3510. 4.
A. and Garcia, A., 2003, “Cellular Spacings in Unsteady-State Directionally Solidified Sn-Pb Alloys,” Materials Science and Engineering, Vol.361, Issues 1-2, pp.111-118. 5.
Online since: January 2013
Authors: Xiao Zhen Li, Yuan Zhu Zhang, Xin Jiang Wei
[6] Savage, B.M. and Janssen, D.J.: ACI Materials Journal, Vol. 94(1997), P.94
[7] C.Leech,D.Lockington,R. and HOOTON: ACI Materials Journal ,Vol. 105(2008),P.44–51
[9] ZP Bažant, LJ Najjar: Material and Structure.Vol.25(1972),P.3-10
[10] Xi Y., Bažant Z.P. and Molina, L.: Journal of Advanced Cement-Based Materials.
V. and Vitaliani, R.V.: ACI Materials Journal, Vol.90(1993), P.441-451
[7] C.Leech,D.Lockington,R. and HOOTON: ACI Materials Journal ,Vol. 105(2008),P.44–51
[9] ZP Bažant, LJ Najjar: Material and Structure.Vol.25(1972),P.3-10
[10] Xi Y., Bažant Z.P. and Molina, L.: Journal of Advanced Cement-Based Materials.
V. and Vitaliani, R.V.: ACI Materials Journal, Vol.90(1993), P.441-451
Online since: February 2019
Authors: Fusahito Yoshida, Michihiro Takiguchi, Komgrit Lawanwong, Tetsuya Yoshida, Takashi Katahira, Tetsuo Naka, Takeshi Uemori
Chu: Journal of Materials Processing Technology, 50(1995), 361-374
Yoshida: Key Engineering Materials, 535-536 (2013), 292-295
Uemori: International Journal of Mechanical Sciences 45 (2003), 1687-1702 [6] J.F.Wang, R.H.Wagoner, D.K.Matlock and F.Barlat: International Journal of Solids and Structures, 42-5-6(2005), 1287-1307
Kim: Journal of Materials Science, 42-15(2007), 6171–6176
Yoshida: International Journal of Mechanical Sciences (2018), to be published
Yoshida: Key Engineering Materials, 535-536 (2013), 292-295
Uemori: International Journal of Mechanical Sciences 45 (2003), 1687-1702 [6] J.F.Wang, R.H.Wagoner, D.K.Matlock and F.Barlat: International Journal of Solids and Structures, 42-5-6(2005), 1287-1307
Kim: Journal of Materials Science, 42-15(2007), 6171–6176
Yoshida: International Journal of Mechanical Sciences (2018), to be published
Online since: August 2013
Authors: Juan Wan, Li Hua Li, Ben Lin Xiao, Hui Chen, Yi Liu
Conclusion
It shows that waste rubber tire particles or chips incorporation to other geotechnical materials have been shown to be a powerful engineering value and economic value.
As a new type of materials with good antipermeability, it can be used as coating material to reduce fracture.
Journal of PLA University of Science and Technology(Natural Science Edition).
Journal of Building Materials.
Journal of PLA University of Science and Technology(Natural Science Edition).
As a new type of materials with good antipermeability, it can be used as coating material to reduce fracture.
Journal of PLA University of Science and Technology(Natural Science Edition).
Journal of Building Materials.
Journal of PLA University of Science and Technology(Natural Science Edition).
Online since: February 2012
Authors: Gang Xu, Lei Miao, Li Hua Chen, Chum Ming Huang, Jian Hua Zhou, Xiu Di Xiao
Xie, Journal of Materials Chemistry, 21: 4509-4517 (2011)
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Lee, Solar Energy Materials and Solar Cells, 71: 537-540 (2002) [8] C.
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Luo, Applied Materials & Interfaces, 1 (10): 2211-2218 (2009) [25] X.
Chao, Journal of Fuzhou University (Natural Science), 25 (4): 95-98 (1997) [26] L.
Lee, Solar Energy Materials and Solar Cells, 71: 537-540 (2002) [8] C.
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Luo, Applied Materials & Interfaces, 1 (10): 2211-2218 (2009) [25] X.
Chao, Journal of Fuzhou University (Natural Science), 25 (4): 95-98 (1997) [26] L.
Online since: November 2011
Authors: Enrique J. Lavernia, T.S. Srivatsan, Troy D. Topping, Ying Li, K. Manigandan
Weertman: Journal of Materials Research, 6 (1991), 1012.
2.
Lavernia: Journal of Materials Research, Vol. 15, 2000, pp. 2215-2225. 8.
Alexandrov, Progress in Materials Science 45 (2000) 103-189 29.
Lavernia: Progress in Materials Science, 51 (2006), 1-11 33.
Lavernia: Journal of Materials Research, 15 (2000), 2215-2220. 38.
Lavernia: Journal of Materials Research, Vol. 15, 2000, pp. 2215-2225. 8.
Alexandrov, Progress in Materials Science 45 (2000) 103-189 29.
Lavernia: Progress in Materials Science, 51 (2006), 1-11 33.
Lavernia: Journal of Materials Research, 15 (2000), 2215-2220. 38.
Online since: August 2016
Authors: Nafisah Osman, Suhaida Dila Safian
International Journal of Materials Science and Applications, 6 (2013) 173-178
Dielectric Relaxation in Complex Perovskite Oxide Sr(Gd0.5Nb0.5)O3, Materials Sciences and Applications, 3 (2012) 369-376
Materials Research Society, 457 (1997) 27-32
Dielectric Materials.
Journal of Magnetism and Magnetic Materials, Vol. 208 (1-2), (2000) 27-36
Dielectric Relaxation in Complex Perovskite Oxide Sr(Gd0.5Nb0.5)O3, Materials Sciences and Applications, 3 (2012) 369-376
Materials Research Society, 457 (1997) 27-32
Dielectric Materials.
Journal of Magnetism and Magnetic Materials, Vol. 208 (1-2), (2000) 27-36
Online since: March 2011
Authors: Min Li Zheng, Ai Qin Lin, Yan Gu
[2] C.YENY, T.ALTAN: Journal of Materials Processing Technology,Vol.146(2004)No.1,pp.82-91
[3] Z.C.LIN,Y.Y.LIN: Journal of Materials Processing Technology,Vol.86(1999)No.2,pp.119-125
[4] A .MOUFKI, D.DUDZINSKI and A MOLINARI: International Journal of Mechanical Sciences,Vol.42(2000)No. 6,pp.1205-1211
[7] D.G.FlLOM, R.KOMANDURI and M LEE: Annals Review of Material Science,Vol.14 (1984) No.3,pp.231-278
[8] Z.C.LIN, Y.D.YANG: Journal of Materials Processing Technology,Vol.70(1997)No.1,pp.22-33.
[3] Z.C.LIN,Y.Y.LIN: Journal of Materials Processing Technology,Vol.86(1999)No.2,pp.119-125
[4] A .MOUFKI, D.DUDZINSKI and A MOLINARI: International Journal of Mechanical Sciences,Vol.42(2000)No. 6,pp.1205-1211
[7] D.G.FlLOM, R.KOMANDURI and M LEE: Annals Review of Material Science,Vol.14 (1984) No.3,pp.231-278
[8] Z.C.LIN, Y.D.YANG: Journal of Materials Processing Technology,Vol.70(1997)No.1,pp.22-33.
Online since: July 2014
Authors: D. Loganathan, A. Gnanavelbabu
Forming shapes mainly depend on the physical and mechanical properties of materials.
Soaking improves the grain structure of materials yields better formability [5, 6].
[4] D.Maisonnette, M.Suery, D.Nelias, P.Chaudet and T.Epicier, Effects of heat treatments on the microstructure and mechanical properties of a 6061 aluminium alloy, Materials Science and Engineering, A 528 (2011), pp.2718–2724
[9] D Li and Amit Gosh, Tensile Behaviour of Aluminium alloys at Warm forming temperatures, Materials Science and Engineering, (2002), pp.279 – 286
[10] Jun Liu and Ming-Jen Tan, Formability of AA5083 and AA6061 alloys for light weight applications, Journal of Materials Design, (2009), pp.S66 – S70.
Soaking improves the grain structure of materials yields better formability [5, 6].
[4] D.Maisonnette, M.Suery, D.Nelias, P.Chaudet and T.Epicier, Effects of heat treatments on the microstructure and mechanical properties of a 6061 aluminium alloy, Materials Science and Engineering, A 528 (2011), pp.2718–2724
[9] D Li and Amit Gosh, Tensile Behaviour of Aluminium alloys at Warm forming temperatures, Materials Science and Engineering, (2002), pp.279 – 286
[10] Jun Liu and Ming-Jen Tan, Formability of AA5083 and AA6061 alloys for light weight applications, Journal of Materials Design, (2009), pp.S66 – S70.
Online since: May 2011
Authors: Chao Hua Zhang, Shan Shan Cheng, Xi Hong Yang, Wan Cui Xie
Materials and methods
Chemical.
Rengaraj, Kyeong-Ho Yeon, Seung-Hyeon Moon: Journal of Hazardous Materials Vol. 87(2001), p. 273–287 [11] K.H.
Chu: Journal of Hazardous Materials Vol. 90(2002), p. 77–95 [12] Sandhya Babel, Tonni Agustiono Kurniawan: Journal of Hazardous Materials Vol. 97(2003), p. 219–243 [13] E.
Muniz: Journal of Hazardous Materials Vol. 147(2007), p. 139–147 [19] A.V.
Shahi: Journal of Hazardous Materials Vol. 172(2009), p. 1041-1048
Rengaraj, Kyeong-Ho Yeon, Seung-Hyeon Moon: Journal of Hazardous Materials Vol. 87(2001), p. 273–287 [11] K.H.
Chu: Journal of Hazardous Materials Vol. 90(2002), p. 77–95 [12] Sandhya Babel, Tonni Agustiono Kurniawan: Journal of Hazardous Materials Vol. 97(2003), p. 219–243 [13] E.
Muniz: Journal of Hazardous Materials Vol. 147(2007), p. 139–147 [19] A.V.
Shahi: Journal of Hazardous Materials Vol. 172(2009), p. 1041-1048