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Advanced Materials Research.
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Journal of University Science and Techology of China.
CIESC Journal.
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Journal of Sichuan Teachers College (Natural Science), 2002, 23(3): 239-244.

The material used for this study is a 2024-T351 aluminum alloy (Al base, 4.46% Cu, 1.44% Mg, 0.60% Mn and 0.13 wt % Fe) provided by Airbus Group (France).
Air Force Aircraft,Commission on Engineering and Technical Systems, National Materials Advisory Board, Division on Engineering and Physical Sciences, National Research Council.
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Frankel, Localized Corrosion Growth Kinetics in AA2024 Alloys, Journal of the Electrochemical Society. 149 (2002) B510

Materials 2.1.
Journal of Materials Processing Technology 187–188, 344–348
Metallurgical and Materials Transactions A, pp. 880- 886, Vol. 39A
Materials Science and Engineering: A 527 (16–17), 3733–3740
ARPN Journal of Engineering and Applied Sciences. vol. 13, no. 23, December 2018, ISSN 1819-6608, pp.9061-9064

Energy Dissipation analysis on Unloading Confining Pressure failure Process of Rock Material Fujiang Chen1, a, Hongxia Li2,b, Zeqi Zhu3,c 1Southwest Jiaotong University, Chengdu, Sichuan 610031 China 2College of Science, Naval University of Engineering, Wuhan, Hubei 430033, China 3Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, Wuhan, Hubei 430071, China a150006524@qq.com, b26953296@qq.com, czhuzeqi2005@tom.com Keywords: rock mechanics; unloading confining pressure; energy dissipation; strain energy Abstract.
The energy dissipation law of rock material are analyzed comprehensively by studying the energy exchange between test machine and rock sample in two typical stress-strain curve of unloading tests.
It shows that the energy dissipation is greatly related to the failure characteristic of rock material and confining pressure.
Acknowledgements This work was financially supported by the National Natural Science Foundation (51009030, 51279202).
Journal of China Coal Society, 20, 389(1995) [6] YOU Mingqing, HUA Anzeng.

Through optimizing the anchor parameters, the reinforcement ability of anchor bolt and self-bearing capacity of surrounding rock would receive full play, realizing the bolt-rock joint bearing, not only obtaining good reinforcement effect, but also saving the anchor bolt quantity, reducing the consumption of supporting materials and the cost of support[10].
The roof displacement is small due to the roof material is siltstone relatively hard.
Journal of Henan Polytechnic University (Natural Science), 2012，31（5）：518-524 [2] Wang Xiaoqing.
Journal of Safety Science and Technology, 2011,7（3）：54-57 [3] Wang Qi, Li Shucai, Wang Hanpeng et al.
Journal of Shandong University (Engineering Science), 2011,41（5）：103-107 [4] Hou Chaojiong, Guo Hongliang.

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Modelling and Simulation in Materials Science and Engineering.

Sreekantan: International Journal of Materials, Mechanics and Manufacturing, Vol. 1 (2013), p.314
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Mellott: Journal of Sol–Gel Science and Technology, Vol. 58 (2011), p. 277
Escribano: Journal of Materials Chemistry, Vol. 3 (1993), p. 1239

It is widely used for deposition and etching applications of metals, semiconductors and dielectric materials; single or compact layers [1].
Lichtenberg, Principles of plasma discharges and materials processing.
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The Influence of Interactions between Polyethylene Glycol and Graphene Oxide in Shape-stabilized PCMs on Their Phase Change Behaviors ChongYun Wang1,2, a, Wei Wang2,b, GuoLing Li1,2,c, Wei Li2,d, WenHuai Tian1, *,e XingGuo Li2, *,f 1Department of Materials Physics and Chemistry, University of Science and Technology Beijing, Beijing, 100083, China 2Beijing National Laboratory of Molecular Sciences, State Key Laboratory of Rare Earth Materials Chemistry and Applications, College of Chemistry and Molecular Engineering, Peking University, Beijing, 100871, China acywang2005@126.com, bwangwei82@pku.edu.cn, cliguoling77@163.com, dblue_77@163.com, ewenhuaitian@sina.com, fxgli@pku.edu.cn Keywords: Phase change materials; polyethylene glycol; graphene oxide; interactions; thermal energy storage.
Solar Energy Materials and Solar Cells 2007, 91, 764
Solar Energy Materials and Solar Cells 2012, 105, 21
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The Journal of Chemical Physics 1999, 111, 9058.