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Online since: January 2015
Authors: Xian Dun Chai, Zhen Zhong Shen, Liang Zhong
The seepage coefficients of the dam body, dam foundation,core wall and grouting curtain materials are listed in Table 1[6,7].
Seepage coefficient of the dam body materials the layers of foundation Materials Seepage coefficient (cm/s) Materials Seepage coefficient (cm/s) Gravelly Soil core material 1.0×10-5 Concrete structure 1.0×10-7 Contact soil material 1.0×10-6 Grouting curtain 7.5×10-6 Filter materialI 5.0×10-3 Fresh base rock 1.0×10-5 Filter materialII 8.0×10-3 Micro weathered base rock 3.0×10-5 transitional material 3.0×10-2 Weakly weathered base rock(The upper part) 1.0×10-4 Main rockfill material 1.0×10-1 Weakly weathered base rock(The lower part) 1.0×10-4 Downstream secondary rockfill material 8.0×10-2 hard weathered base rock 5.0×10-4 Analysis of seepage field characteristics The peak height of different time of the free surface in core wall under the empty reservoir case are shown in table 2.
Journal of Hohai University (Natural Science).Vol.27(3) (1996), p.22-29 [2] Shen, Z.
Journal of Hohai University (Natural Science).
Journal of Hohai University (Natural Science).Vol:22(5) (1994), p.75-77
Seepage coefficient of the dam body materials the layers of foundation Materials Seepage coefficient (cm/s) Materials Seepage coefficient (cm/s) Gravelly Soil core material 1.0×10-5 Concrete structure 1.0×10-7 Contact soil material 1.0×10-6 Grouting curtain 7.5×10-6 Filter materialI 5.0×10-3 Fresh base rock 1.0×10-5 Filter materialII 8.0×10-3 Micro weathered base rock 3.0×10-5 transitional material 3.0×10-2 Weakly weathered base rock(The upper part) 1.0×10-4 Main rockfill material 1.0×10-1 Weakly weathered base rock(The lower part) 1.0×10-4 Downstream secondary rockfill material 8.0×10-2 hard weathered base rock 5.0×10-4 Analysis of seepage field characteristics The peak height of different time of the free surface in core wall under the empty reservoir case are shown in table 2.
Journal of Hohai University (Natural Science).Vol.27(3) (1996), p.22-29 [2] Shen, Z.
Journal of Hohai University (Natural Science).
Journal of Hohai University (Natural Science).Vol:22(5) (1994), p.75-77
Online since: February 2011
Authors: Yin Fang Jiang, Lei Fang, Zhi Fei Li, Zhen Zhou Tang
Laser shock processing is a technique similar to shot peening that imparts compressive residual stresses in materials for improved fatigue resistance.
LSP is a process similar to traditional shot peening and designed to improve the mechanical properties and fatigue performance of materials [1].
Acknowledgements This research is financed by Natural Science Fund (51075193) References [1] William.Braisted and Robert.
Brockman: International Journal of Fatigue Vol.21 (1999), P.719–724
Yang: Chinese Journal of Lasers Vol. 33 (2006), pp. 1282-1287
LSP is a process similar to traditional shot peening and designed to improve the mechanical properties and fatigue performance of materials [1].
Acknowledgements This research is financed by Natural Science Fund (51075193) References [1] William.Braisted and Robert.
Brockman: International Journal of Fatigue Vol.21 (1999), P.719–724
Yang: Chinese Journal of Lasers Vol. 33 (2006), pp. 1282-1287
Characterization of α/β-TCP Based Injectable Calcium Phosphate Cement as a Potential Bone Substitute
Online since: November 2012
Authors: Joop G.C. Wolke, John A. Jansen, Sander C.G. Leeuwenburgh, Kemal Sariibrahimoglu
Journal of Materials Science: Materials in Medicine, 6 (1995) 653-657
Journal of Biomedical Materials Research A, 88 (2008) 43-52
Materials Letters, 48 (2001) 162-167
Journal of Biomedical Materials Research Part A, 100A (2012) 712-719
Kokubo, Bioceramics and their clinical applications, Boca Raton, FL (33487): Woodhead Publishing in Materials and CRC Press LLC. 2008
Journal of Biomedical Materials Research A, 88 (2008) 43-52
Materials Letters, 48 (2001) 162-167
Journal of Biomedical Materials Research Part A, 100A (2012) 712-719
Kokubo, Bioceramics and their clinical applications, Boca Raton, FL (33487): Woodhead Publishing in Materials and CRC Press LLC. 2008
Online since: April 2021
Authors: Susilawati Susilawati, Aris Doyan
This technology can be developed with certain materials.
Series: Materials Science and Engineering, 196, 012016 (2017)
Series:Journal of Physics: Conf.
Niewa, Materials Chemistry and Physics, 163, 416–420 (2015)
Materials Science Forum, 966, 282-289 (2019)
Series: Materials Science and Engineering, 196, 012016 (2017)
Series:Journal of Physics: Conf.
Niewa, Materials Chemistry and Physics, 163, 416–420 (2015)
Materials Science Forum, 966, 282-289 (2019)
Online since: October 2016
Authors: Feng He Wu, Yong Xin Li, Peng Wu
The bionic hollow structure structure is designed;
(2) As the materials of bamboo and column are different and material of column can't change, so the density of bamboo fiber distribution behaves the distribution of metal material;
(3) The bamboo stem is tapered, which is due to the influence of relative uniform external force.
Applied Mechanics and Materials, 130-134 (2012) 2301-2305
Leung Materials letters, 58.21 (2004) 2595-2598
Journal of Applied Polymer Science, 112 (2009) 447-453
Ma, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 5.8 (2011) 153-161.
Applied Mechanics and Materials, 130-134 (2012) 2301-2305
Leung Materials letters, 58.21 (2004) 2595-2598
Journal of Applied Polymer Science, 112 (2009) 447-453
Ma, Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science, 5.8 (2011) 153-161.
Online since: January 2017
Authors: Nireeksha Karode, Laurence Fitzhenry, Siobhán Matthews, Philip Walsh, Austin Coffey
Experimental Procedure
Materials.
Loppinet-Serani, Review on materials science and supercritical fluids, Current Opinion in Solid State and Materials Science, 7 (2003) 331-340
Cooper, Polymer synthesis and processing using supercritical carbon dioxide, Journal of Materials Chemistry, 10 (2000) 207-234
Marre, Y.; Aymonier, C, Supercritical microfluidics: Opportunities in flow-through chemistry and materials science, .
Strutt, Polymer processing, Materials science and technology, 19 (2003) 1161-1169
Loppinet-Serani, Review on materials science and supercritical fluids, Current Opinion in Solid State and Materials Science, 7 (2003) 331-340
Cooper, Polymer synthesis and processing using supercritical carbon dioxide, Journal of Materials Chemistry, 10 (2000) 207-234
Marre, Y.; Aymonier, C, Supercritical microfluidics: Opportunities in flow-through chemistry and materials science, .
Strutt, Polymer processing, Materials science and technology, 19 (2003) 1161-1169
Online since: November 2013
Authors: Xiu Qing Zhang, Ge Chen, Xiao Na Chen
Results and discussion
Microstructure of the experimental materials.
Journal of HeBei University of Science and Technology, 2000, 1:19-22
[3] Juan-hua Su, Ping Liu, Qi-ming Dong,et al, Aging study of rapidly solidified and solid-solution Cu–Cr–Sn–Zn alloy [J], Journal of Materials Processing Technology, 2008, 205(1–3):366-369
Bulk nanostructured materials from severe plastic deformation, Progress in Materials Science, 2000, 45(2):103-189
Severe plastic deformation: Simple shear versus pure shear, Materials Science and Engineering A, 2002, 338(1-2):331-344
Journal of HeBei University of Science and Technology, 2000, 1:19-22
[3] Juan-hua Su, Ping Liu, Qi-ming Dong,et al, Aging study of rapidly solidified and solid-solution Cu–Cr–Sn–Zn alloy [J], Journal of Materials Processing Technology, 2008, 205(1–3):366-369
Bulk nanostructured materials from severe plastic deformation, Progress in Materials Science, 2000, 45(2):103-189
Severe plastic deformation: Simple shear versus pure shear, Materials Science and Engineering A, 2002, 338(1-2):331-344
Online since: May 2020
Authors: Zonghu Xiao, Shun Jian Xu, Yong Ping Luo, Meng Zhang, Wei Zhong, Ping Huang
As for counter electrode, many catalytic materials including noble metals, metal compounds, conductive polymers, heterogeneous structural materials and carbon materials have been widely studied [6].
Science, 2011, 334(6056): 629-634
Solar Energy Materials and Solar Cells, 2007, 91(7): 566-571
Materials Chemistry and Physics, 2018, 204: 294-304
Solar Energy Materials and Solar Cells, 2007, 91(7): 566-571
Science, 2011, 334(6056): 629-634
Solar Energy Materials and Solar Cells, 2007, 91(7): 566-571
Materials Chemistry and Physics, 2018, 204: 294-304
Solar Energy Materials and Solar Cells, 2007, 91(7): 566-571
Online since: April 2015
Authors: Sayyidah Amnah Musa, Norainiza Saud, Nurul Razliana Abdul Razak, Kamarudin Hussin
Xue, L.Zheng and L.Guo: submitted to Journal of Materials Science: Materials in Electronics (2011)
Shi: submitted to Journal of Material Science: Material Electronic (2010)
Ahmad:Materials Science & Engineering A 556 (2012), p. 633-637
Gupta: submitted to Journal of Electronic Materials (2008)
Gupta: submitted to Journal of Material Science: Material Electronics (2009)
Shi: submitted to Journal of Material Science: Material Electronic (2010)
Ahmad:Materials Science & Engineering A 556 (2012), p. 633-637
Gupta: submitted to Journal of Electronic Materials (2008)
Gupta: submitted to Journal of Material Science: Material Electronics (2009)