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Further investigations have been performed to study the effect of including material damping and the rate-dependant material properties at different shock loads.
Gangyi, A finite element analysis of ship sections subjected to underwater explosion, International Journal of Impact Engineering, 38 (2011) 558-566
Kadid, Stiffened Plates Subjected to Uniform Blast Loading, Journal of Civil Engineering and Management 14 (2008) 155-161
Beznea, Response of ship hull laminated plates to close proximity blast loads, Computational Materials Science, 52 (2012) 197-203
Tai, Deformation behavior of a stiffened panel subjected to underwater shock loading using the non-linear finite element method, Materials and Design, 31 (2010) 325-335

Experimental Materials.
Then pour the mixing materials spirally along the mold’s edge towards its center.
Shi: Journal of Huaqiao University(Natural Science).
Li: Journal of Southeast University (Natural Science Edition).
Wang, et al: Journal of Building Materials.

：Welding Journal (Miami, Fla) Vol. 86(2007)，p. 205
，Celikyurek I.： Kovove Materialy-Metallic Materials Vol. 47(2009)，p. 263
[6] Shiquan Zhou，Hong Zhao，Qiang Dong：Materials Science Forum Vol. 539-543(2007), p. 4042
：Materials Science Forum Vol. 514-516 (2006), p. 1526
：Journal of Materials Science Vol. 42(2009), p. 5692

The evolution of surface roughness, when milling C45 materials with different hardness, has a similar trend.
Cep, Progressive strategy of milling by means of tool axis inclination angle, World Academy of Science, Engineering and Technology. 29 (2009) 655-659
Amara, Influence of workpiece inclination angle on the surface roughness in ball end milling of the titanium alloy Ti-6Al-4V, Journal of Achievements in Materials and Manufacturing Engineerin., Vol. 35, No. 1 (2009) 79-86
Hashmi, Prediction of tool life in end milling by response surface methodology, Journal of Materials Processing and Technology 71 (1997) 456-465
Torbaty, Variation cutting speed on the five axis milling, Journal of Achievements in Materials and Manufacturing Engineering.

McCosh: Popular Science, Vol.244 (1994), p.76 [3] M.
Welo: Journal of Materials Processing Technology, Vol. 128 (2002), p. 48 [6] J.
Bstard: International Journal of Mechanical Sciences, Vol. 43 (2001), p. 1283 [7] N.
Sakaki: Journal of Materials Processing Technology, Vol. 123 (2002), p. 264 [8] Z.H.
Li: Journal of Materials Processing Technology, Vol. 209 (2009), p. 396-407 [10] S.H.

The Ni-based reticular MnOx catalytic materials with high porosity and high specific area were prepared by the electrodeposition method.
Pd plate and bulk manganese were choose as anode materials.
Results and discussion The XRD patterns of MnOx catalytic materials Fig.1.
Materials chemistry and Physics. 113 (2009) 650 [6] C.
Journal of Electroanal.

Introduction Left-hand materials (LHM) or negative refractive medium is a new type of artificial electromagnetic materials developed in recent years [1].
Because of the different dielectric constants and the permeability of left-hand materials(LHM) are related to the parameters of S11 and S21.
Hung: Submitted to Journal of MicroWaves (2004)
Wu: Submitted to Chinese Journal of Radio Science (2006)
Lv: Submitted to Journal of Micro Waves (2007)

Development of Materials for Solid State Hydrogen Storage Katarína Kušnírová1,a*, Lenka Oroszová1,b, Dagmara Varcholová1,2,c and Karel Saksl1,2,d 1Institute of Materials Research, Slovak Academy of Sciences, Watsonova 47, 040 01 Košice, Slovak Republic 2Faculty of Materials, Metallurgy and Recycling, Technical University of Košice, Letná 9, 042 00 Košice, Slovak Republic a*kkusnirova@saske.sk, bloroszova@saske.sk, cdvarcholova@saske.sk, dksaksl@saske.sk Keywords: Hume-Rothery criterion; high entropy alloys; solid state hydrogen storage; solid solution.
Interest in solid materials suitable for hydrogen storage in 2016 was focused on high-entropy materials after a publication by M.
High-entropy materials: A brief introduction.
Journal of Applied Physics 109 (2011) 103505
In Progress in Natural Science: Materials Internat. 21 (6) (2011) 433-446

Properties of Nanocrystalline Aluminium Fabricated by Warm-vacuum-compaction Method Wei Liu1, a, and Qionghua Zhou2, b 1School of Materials Science and Engineering, Henan University of Science and Technology, Luoyang, P.R.China 471003 2Medical College, Henan University of Science and Technology, Luoyang, P.R.China 471003 aliuweidavid@yahoo.com.cn, bzhouqionghua2000@163.com Keywords: Nanocrystalline aluminium; Warm-vacuum-compaction; XRD; Thermal analysis; Microhardness Abstract.
Introduction Nanocrystaline (nc-) materials or nanostructured (ns-) materials are three-dimensional (3D) bulk materials with average grain size typically smaller than 100 nm.
Nc-materials synthesized by severe plastic deformation are full dense and without any pores or contaminant.
Karimpoor, U.Erb, K.T.Aust and G.Palumbo: Scripta Materialia Vol.49 (2003), p. 651 [2] Y.F.Shen, W.Y.Xue, Y.D.Wang, Z.Y.Liu and L.Zuo: Surface & Coatings Technology Vol. 202 (2008), p. 5140 [3] L.Lu, M.L.Sui and K.Lu: Science Vol. 287 (2000), p. 1463 [4] J.Petzold: Journal of Magnetism and Magnetic Materials Vol. 242-245 (2002), p. 84 [5] K.Y.Zhao, C.J.Li, J.M.Tao, Dickon H.L.Ng and X.K.Zhu: Journal of Alloys and Compounds Vol. 504S (2010), p.
S306 [6] L.Zhang, A.M.Elwazri, T.Zimmerly and M.Brochu: Materials Science and Engineering A Vol. 487 (2008), p. 219 [7] W.Liu, Y.Tang, G.Chu, J.Luo, S.Yang, J.Li and W.Dong: Materials Science and Technolog Vol. 14 (2006), p. 127 [8] W.Liu, T.Yang, G.Chu, J.Luo and Y.Tang: Trans.Nonferrous.Met.Soc.China Vol. 16 (2006), p. 747 [9] G.Chu and W.Liu: J.Cent.South Univ.

Liu: submitted to Journal of Membrane Science (2011) [2] A.
Capannrlli: submitted to Journal of Membrane Science (1991) [3] S.C.
Ratana: submitted to Journal of Membrane Science (2011) [8] X.T.
Xiao: submitted to Journal of Membrane Science (2010) [10] S.J.
Lee: submitted to Journal of Membrane Science (2009) [11] L.