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Online since: May 2011
Authors: Ming Hui Lee
Journal of Sound and Vibration Vol. 259(2) (2003), p. 387-407
Journal of Sound and Vibration Vol. 275 (2004), p. 953–971
Defence Science Journal Vol. 58(1) (2008), p. 46-56
Journal of applied mechanics, ASME Vol. 38(2) (1971), p. 328-334
[19] Academia Sinica, Institute of Earth Sciences, 921quake@earth.sinica.edu.tw.
Journal of Sound and Vibration Vol. 275 (2004), p. 953–971
Defence Science Journal Vol. 58(1) (2008), p. 46-56
Journal of applied mechanics, ASME Vol. 38(2) (1971), p. 328-334
[19] Academia Sinica, Institute of Earth Sciences, 921quake@earth.sinica.edu.tw.
Online since: December 2011
Authors: Ming Xin Zhang, En Hui Chen, Wen Bin Yang
Materials and Methods
Materials and Instrument.
The experimental parameters and the quantities of the materials used are listed in Tables 1 and 2.
McDonald, Bryony James, Materials Research Innovations, Vol. 4 (2001)p. 97–103 [4] Craig Clemons, Foestry Products Journal, Vol. 52 (2002)p. 10-18 [5] Lakkad S C, Patel J M.
Journal of Applied Polymer Science.
Journal of Applied Polymer Science.
The experimental parameters and the quantities of the materials used are listed in Tables 1 and 2.
McDonald, Bryony James, Materials Research Innovations, Vol. 4 (2001)p. 97–103 [4] Craig Clemons, Foestry Products Journal, Vol. 52 (2002)p. 10-18 [5] Lakkad S C, Patel J M.
Journal of Applied Polymer Science.
Journal of Applied Polymer Science.
Online since: June 2008
Authors: János Dobránszky, Imre Norbert Orbulov, Árpád Németh
Green and G Cavallaro: Materials Science and
Engineering A Vol. 464 (2007), p. 85
[3] T.
Kaptay: Materials Science Forum Vol. 473-474 (2005), p. 297 [4] V.
Mortensen: Materials Science and Engineering A Vol. 404 (2005), p. 9 [6] M.
Radhakrishna: Journal of Materials Science Vol. 40 (2005), p. 5989 [7] M.
Blucher: Journal of Materials Processing Technology Vol. 30 (1992), p. 381
Kaptay: Materials Science Forum Vol. 473-474 (2005), p. 297 [4] V.
Mortensen: Materials Science and Engineering A Vol. 404 (2005), p. 9 [6] M.
Radhakrishna: Journal of Materials Science Vol. 40 (2005), p. 5989 [7] M.
Blucher: Journal of Materials Processing Technology Vol. 30 (1992), p. 381
Online since: May 2011
Authors: Guo Dong Zheng
The internal forces and the stress of all kinds of materials in the reinforcement section and the deformation of the beam can be calculated
In the calculation the elastic modulus of various materials are: ordinary steel Es= 210GPa = 210 × 103MPa, FRP materials Ecf = 230MPa and the concrete at the initial moment Ec(t0) = 2.55 × 104MPa.The protective layer thickness of the beam is 15mm.
It can be seen that the stress changes of a variety of materials with time are quite different when the initial stress are different greatly.
Journal of Tongji University (Natural Science) .1991,19(1):23-32
Journal of Structural Engineering, 1994, 120(3): 1016-1042.
In the calculation the elastic modulus of various materials are: ordinary steel Es= 210GPa = 210 × 103MPa, FRP materials Ecf = 230MPa and the concrete at the initial moment Ec(t0) = 2.55 × 104MPa.The protective layer thickness of the beam is 15mm.
It can be seen that the stress changes of a variety of materials with time are quite different when the initial stress are different greatly.
Journal of Tongji University (Natural Science) .1991,19(1):23-32
Journal of Structural Engineering, 1994, 120(3): 1016-1042.
Online since: April 2014
Authors: Stuart Barnes, Mum Wai Yip, Ahmed A.D. Sarhan
Journal of Achievements in Materials and Manufacturing Engineering.
Kennedy: Laser Cladding of Aerospace Materials.
Journal of Materials Processing Techology.
Journal of Mechanical Science and Technology.
Landkof: Laser Surface Melting of AISI 4340 Steel, Materials Science and Technology.
Kennedy: Laser Cladding of Aerospace Materials.
Journal of Materials Processing Techology.
Journal of Mechanical Science and Technology.
Landkof: Laser Surface Melting of AISI 4340 Steel, Materials Science and Technology.
Online since: February 2012
Authors: Zhi Meng Guo, Jun Jie Hao, Qing Ye, Min Chao Ru
Acknowledgements
This work was supported by State Key Lab of Advanced Metals and Materials(2010Z-09) and Public Foundation of Beijing Key Lab of Advanced Powder Metallurgy and Particulate Materials(USTB).
Metallurgical and Materials Transactions A-Physical Metallurgical and Materials Science. 2011,42A(6): 1630-1645
Metallurgical and Materials Transactions A-Physical Metallurgical and Materials Science. 2008,39A(7): 1519-1524
Journal of Materials Engineering and Performance. 2011,20(3): 341-347
Journal of Materials Processing Technology. 2008,208(1-3): 457-462
Metallurgical and Materials Transactions A-Physical Metallurgical and Materials Science. 2011,42A(6): 1630-1645
Metallurgical and Materials Transactions A-Physical Metallurgical and Materials Science. 2008,39A(7): 1519-1524
Journal of Materials Engineering and Performance. 2011,20(3): 341-347
Journal of Materials Processing Technology. 2008,208(1-3): 457-462
Online since: December 2014
Authors: Wen Hui Ma, Yong Yin Xiao, Hui Zhang, Jia Li He, Xiu Hua Chen, Wen Jie Zhu, Jiao Li
Materials Characterization and Measurements.
Kim: Journal of Colloid and Interface Science, Vol. 286 (2005) No.2, p.536
Kim: Journal of Colloid and Interface Science, Vol. 286 (2005) No.2, p.536
Xie: Materials Letters, Vol. 92 (2013), p.129
Rocca: Journal of Separation Science, Vol.29 (2006) No.6, p.844
Kim: Journal of Colloid and Interface Science, Vol. 286 (2005) No.2, p.536
Kim: Journal of Colloid and Interface Science, Vol. 286 (2005) No.2, p.536
Xie: Materials Letters, Vol. 92 (2013), p.129
Rocca: Journal of Separation Science, Vol.29 (2006) No.6, p.844
Online since: April 2011
Authors: Grzegorz Moskal
Materials of reduced thermal conductivity and of reduced proneness to sintering, based on the ZrO2 zirconium oxide, while these materials are modified with additives of rare earth oxides (the REO lanthanides) are basic directions in development of a new type of ceramic materials.
In a scope of interests, there are two types of materials from this group.
[12] Suresh G. et al.: Journal of Nuclear Materials Vol. 249 (1997), p. 259
[13] Moskal G.: Materials Science (in polish) – in press
[14] Wu J.: Journal of Materials Research Vol. 17 (2002), p. 3193
In a scope of interests, there are two types of materials from this group.
[12] Suresh G. et al.: Journal of Nuclear Materials Vol. 249 (1997), p. 259
[13] Moskal G.: Materials Science (in polish) – in press
[14] Wu J.: Journal of Materials Research Vol. 17 (2002), p. 3193
Online since: October 2013
Authors: Qing Chun Wang, Wei Liang Dai, Xu Guang Li
Light weight materials were adopted as filler to improve the lateral crashworthiness of energy absorbing structures.
For the mass production of automobile, light weight material filling is not that feasible in the production process.
International Journal of Mechanical Sciences, 1999, 41(2):178~208
International Journal of Mechanical Sciences, 1999, 41(2):209~233
International Journal of Mechanical Sciences, 1999, 41(8):967~993
For the mass production of automobile, light weight material filling is not that feasible in the production process.
International Journal of Mechanical Sciences, 1999, 41(2):178~208
International Journal of Mechanical Sciences, 1999, 41(2):209~233
International Journal of Mechanical Sciences, 1999, 41(8):967~993