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The material properties data are received from CAAS-USA.Approximate plastic stress strain curves are generated using the UTS and YS for each material.
Table 4 Maximum von Mises Stresses Component material UTS YS Max.
Journal of Aircraft, 2005, v 42,n 4, p 963- 975 [2] Morita Y, Torii K , Tsuchida N, et al.
Advanced Materials Research, 2011, v 142, p 45-50 [4] Qin Quanquan; Liu Jingyang Hao Jinliang.
Jsme International Journal Series C-Mechanical Systems Machine Elements and Manufacturing, 2005, v 48, n 2, p 251-260 [7] Hu X h, Jain M, Wilkinson Ds, et al.

Material Modeling.
(6) Where Z is the reduced acoustic impedance [2/Z≈1/Z1 +1/Z2] of the confining (Z1) and target (Z2) materials; α is the efficiency of the interaction.
Acknowledgements The financial support of National/Jiangsu Natural Science Fund (C50735001/BK2009203) is gratefully acknowledged.
Ye: International Journal of Fatigue Vol. 24 (2002), pp. 1021-1036
Zhang, et al: Journal of Materials Processing Technology Vol. 129(2002), pp. 241-244

Toosi University of Technology, Tehran, Iran 2Department of Materials Engineering, Iran University of Science and Technology 3Advanced Materials and Nanotechnology Research Lab., K.N.
Titanium dioxide (hooks Co., purity, 98.5%) of a mean particle size of 5 µm was mixed with Aluminum hydroxides in the proper stoichiometry.Various oxide raw materials were also added in the alumina-titania mixture.
Table1 summarizes the chemical composition and the mean particle size of raw materials.
Eight series of ceramic samples were prepared by different combinations of the starting materials.
Unreacted materials show that the transformation reaction of tialite formation is not totally complete.

After the analysis of the modes based on materials from British Maritime Commission, it uses the Criticality Analysis （CA） to analyze the major mode of high hazard.
System of maritime security 2.2 The failure modes based on human errors in maritime accidents By analyzing a large number of materials, which come from British Maritime Commission (MAIB), this paper gives ten major categories of mode: l The fault in manipulation behavior (anchorage, manipulation of berthing): control failures in ship's position (position, direction) and vehicle (in speed), the rudder, anchor, cable, tug, thruster[4]; l The misjudgment of manipulating the ship: misjudgment of the boat’s speed, the determination of wind effects, flow effects, shallow water effects, quay effects, and the interaction between the ships;  l The fault in navigation operation: route recognition errors, improper control of the ship the ship's position (or the yaw), inappropriate choice of the turning Point on the ship’s route and the speed control of the boat;  l Fault in the avoidance behavior: negligence in the observation, error in the safe speed, misjudgment of the danger, fault in
It is advisable to attach the degree to each mode in a relative position based on the materials from MAIB, since there is no accurate statistical data of time.
Stipdonk, “Inland waterway transport: modeling the probability of accidents,” Safety Science, 1995, pp. 191–202
Xi, “Mechanism Analysis of Human Errors and Marine Accidents” Shanghai: Journal of sssri, June 2006.

Pancholi: Materials Science and Engineering: A.
Holmedal: Journal of Materials Processing Technology.
Koç: Materials & Design.
Boumaza: Materials Characterization.

Aliabadi2,b P H Wen3 1, 2 Department of Aeronautics, Imperial College, London, UK, SW7 2BY 3 School of Engineering and Materials, Queen Mary University of London E1 4NS a l.li08@imperial.ac.uk, b m.h.aliabadi@imperial.ac.uk Keywords: Meshfree, Radial basis, Moving kriging, Galerkin, Continuum damage, 3D orthogonal woven composites, Weibull Abstract.
Introduction Damages in many fibrous composite materials play an important role with non-ductile matrices.
Weibull: A statical theory of the strength of materials, IVA Proceedings Nr. 151, Stockholm, 1939 [2] P.
Aliabadi: Mesh-free micromechanical model for woven fabric composite elastic moduli, Journal of Multiscale Modelling, 1, No. 2, 303-319, 2009 [5] Lei Gu: Moving kriging interpolation and element-free Galerkin method, Int.
Bogdanovich: Multi-scale modelling, stress and failure analyses of 3-D woven composites, J Mater Sci, 41, 6547-6590, 2006 [7] P.H.Wen and M H Aliabadi Elastic Moduli of Woven Fabric Composite by Meshless Local Petrov-Galerkin (MLPG) Method, Computer modeling in Engineering and Sciences, Vol 61, P. 133-154, 2010.

Kuzina, Improving the processes of shaping by a tight-fitting shell of double curvature, Bulletin of the Samara Scientific Center of the Russian Academy of Sciences, 13(4) (2011) 217-223
Belyaeva, Technological schemes of hybrid and combined technologies using static and dynamic loads, Key Engineering Materials, 746 (2017) 246-254
Sapozhnikova, Hybrid and combined technologies in metal forming processes, Electronic journal "Proceedings of the MAI", 45 (2011) 11
Glushchenkov, Inductors for magnetic-pulse processing of materials, Samara, Educational literature, 2013
Karpukhin, Technology of magnetic-pulse processing of materials: monograph, Samara, Ed. house "Fedorov", 2014

And with different raw materials, the nature and amount of surface floating oil and precipitation of the wood vinegar are different[4], which have made a serious impact on the promotion and application of wood vinegar.
Materials and instruments Wood vinegar (Provided by the manufacturer of Shandong), Tween-80, sodium dodecyl sulfate, cetyl trimethyl ammonium bromide (CTMAB), analytical balance, Magnetic stirrer.
References [1] Haiying Wang, Guoting Yang: The wood vinegar Research and Its Utilization, Journal of northeast forestry university, 32(5). (2004)
[2] Ziquan Liu, Fuyi Jiang, Ruicui Liu, Applied Mechanics and Materials, 178, 954-957, (2012)
[3] Yunjia Wang, Qian Yu, Lisi Shen, Advanced Materials Research,395, 1479-1482,(2012)

National Science Foundation (grants DMS-1115546 and DMS-1115527).
Zhu, Direct numerical simulations of fluid-solid systems using the arbitrary Lagrangian-Eulerian technique, Journal of Computational Physics, Vol. 169(2) (2001), p. 427-462 [7] D.
Karniakadis, A fast method for particulate microflows, Journal of Microelectromechanical systems, Vol. 11 No. 6 (2002), p. 691-702 [8] P.W.
Doyle, Continuous-flow lithography for high-throughput microparticle synthesis, Natural Materials, Vol.5 (2006), p. 365-369 [12] D.
Cook, An arbitrary Lagrangian-Eulerian computing method for all flow speeds, Journal of Computational Physics, Vol. 135 (1997), p. 203-216 [15] S.

Scouring is a process where water erodes material from a channel.
Journal of Performance of Constructed Facilities, 2007. 21(5): p. 398-405
Journal of Performance of Constructed Facilities, 2015. 30: p. 04015005
IOP Conference Series: Earth and Environmental Science, 2020. 437: p. 012056
Journal of Bridge Engineering, 2008. 13(1): p. 6-14