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Different kinds of hydrogen storage technologies and materials, and their advantages as well as disadvantages were compared in the referred papers [3~5].
(In Chinese) [2] H.X.Huang,K.L.Huang,S.Q.Liu.Progress in hydrogen storage technologies and materials.
New Chemical Materials, Vol. 136,No.11(2008),p27-29.
Maxwell.Journal of Fuel Cell Science and Technology, Vol.5(2008), p1-10
[11] P.Xu,J.Y.Zheng, P.F.Liu.Materials and Design,Vol.30(2009),p2295-2301

Journal of Metallurgical and Materials Engineering Research.
Materials Science & Engineering A.2014
Materials Science and Engineering A 380 (2004) 378–383
Materials Science and Engineering A 386 (2004) 284–290
Journal of Materials Science 39 (2004) 3211 – 3212

Hot Deformation Behavior of AA-FGH720Li Superalloy Xuqing Wanga, Zichao Pengb, Mincong Zhangc Science and Technology on Advanced High Temperature Structural Materials Laboratory, AECC, Beijing Institute of Aeronautical Materials, Beijing, 100095, China awxqcjr@163.com, bpengzichaonba@126.com, cmincong-zh@163.com Keywords: FGH720Li superalloy, Hot deformation, Constitutive equation, Deformation mechanism Abstract.
Wang, Development and Application of PM Superalloy, Journal of Aeronautical Materials, 26(2012) 244-249 [2] M.
Dong, Hot deformation behavior of uniform fine-grained GH720Li alloy based on its processing map, International Journal of Minerals, Metallurgy and Materials, 23(2016) 83-91 [7] H.
Ryan, Constitutive analysis in hot working, Materials Science and Engineering, 322A(2002) 43-63 [8] H.
Prado, Hot deformation behavior of a medium carbon microalloyed steel, Materials Science and Engineering A, 528( 2011) 3876-3882 [9] F.

Properties of Argon Gas Atomized Ti-43Al-9V-Y Alloy Powders Liu Yufenga, Liu Nab, Li Zhouc, Zheng Liangd, Xu Wenyonge Science and Technology on Advanced High Temperature Structural Materials Laboratory, Beijing Institute of Aeronautical Materials, Beijing 100095, China aLiuyufeng0122@163.com, bsnailtree@163.com, czhouli621@126.com, dliang_zheng@126.com, ewyx1368120@163.com Keywords: Argon gas atomization, Size distribution, Microstructure, Phase, Gas contents, Hollowed powders.
Materials Science & Engieering A, 1995, s192–193:465-473
Materials for Mechanical Engineering, 2014, 38(3):50-49
Materials Science & Engineering A, 2009, 499(1–2):53-57
Journal of Zhejiang University-SCIENCE A, 2010, 11(10):738-743.

In these theories, rock material and micro-cracks are together approximated as an equivalent continuous, homogeneous and anisotropic medium.
Acknowledgment The woke was financially supported by the National Natural Science Foundation of China (51109084), the Natural Science Foundation of the Fujian Province, China (2011J01317) and State Key Laboratory for GeoMechanics and Deep Underground Engineering, China University of Mining & Technology (SKLGDUEK1012) References [1] Morris WL, Buck O, Inman RV: Journal of Applied Physics. 50: 6737-6741(1979)
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[32] Audrey Ougier-Simonin, Jerome Fortin, Yves Gueguen, Alexandre Schubnel, Frederic Bouyer: International Journal of Engineering Science. 49(1):105-121(2010)
[39] Green DH, Wang HF, Bonner BP: International Journal of Rock Mechanics and Mining Science and Geomechanics Abstracts, 30(7): 755-761(1993)

Materials Science Forum, 968, 20-25. https://doi.org/10.4028/www.scientific.net/MSF.968.20 [7] Zhao, L., Wang, W., Li, Z. & Chen, Y. (2015).
Fractals and properties of materials.
Structure and Properties of Building Materials.
Journal of Reports of the National Academy of Sciences of Ukraine, 4, 116-121.
Materials Science Aspects of Using of Wavelet-Multifractal Approach to an Evaluation of Structure and Properties of Low-Carbon Low-Alloyed Steels.

Experimental Procedure Materials used: Ordinary Portland Cement (43 Grade) was used throughout the investigation.
ARPN Journal of Engineering and Applied Science, VOL.3, NO.5, October 2008
[3]S.C.Pal, Abhijit Mukherjee, and S.R.Pathak:ACI Materials journal,V.99.No.6, Nov-Dec2002 [4]V.S.Ramachandran, “Concrete Admixtures Handbook” Institute for Research in Construction, National Research Council Canada, Ottawa, Ontario, Canada
[5]David N.Richardson, University of Missouri-Rolla, R199-035/R199-035B [6]S.Pavia and E.Condren, Journal of Materials in Civil Engineerig, April 2008. pp313-320 [7]Richardson, David N., University of Missouri-Rolla, (2006) Report 06-008, Jefferson City, USA
International Journal of Physical Sciences Vol.1 (3), pp. 112-120, November, 2006 [9]Wang Ling, Tian Pei, and Yao Yan, China Building Materials Academy, PRC [10]M.Shariq, J.Prasad and A.K.Ahuja, Asian Journal of Civil Engineering, Vol.9, No.1.pp61-74 2008.

Modified montmorillonite is a multifunctional material[1-3].
Experimental Materials.
XRD patterns of the studied materials are displayed in Fig.1.
G, et al.: Journal of Colloid and Interface Science Vol.335 (2009), p, 77 [3] A.
Surpateanu: European Polymer Journal Vol. 38 (2002), p.615

The strong and narrow diffraction peaks indicate that the material has a good crystallinity.
Feick, et al.: Science Vol.292(2001), p.1897 [2] M.
Justin, et al.: Nature materials.
:Materials LettersVol.61(2007), p.4362 [12] M.J.Zheng, L.D.Zhang, G.H.Li, et al.
Hung and W.T.Whang: Journal of Crystal GrowthVol.268(2004), p.242 [14] C.C.Ting, C.

Domínguez: Microporous and Mesoporous Materials.
[11] Haruo Watanabe: Journal of Membrane Science.
Chmielewski: Journal of Hazardous Materials.Vol 144(2007) , p 698
[14] Liyuan Deng, May-Britt Hägg: International Journal of Greenhouse Gas Control.
Fuess: Journal of Membrane Science.