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MEGM 2010 had drawn the attention of researchers from various disciplines: Mechanical Engineering Design, Green Manufacturing Technology, Applied Mechanics, Sustainable Materials, etc.
In order to allocate as many papers as possible and keep the high quality of the conference, we finally decided to accept 390 papers, which have been accepted for presentation at the conference and will be published by TTP, in Applied Mechanics and Materials (AMM) Journal (ISSN: 1660-9336), and is online available in full text via the platform www.scientific.net.
Our deep thanks also go to the sponsors: National Natural Science Foundation of China, Shanghai Jiao Tong University, South China University of Technology, National University of Defense Technology, Central South University (CSU), Hunan University, Xiangtan University, Hunan University of Science and Technology, Hunan Institute of Engineering as was as the organizers: Hunan Institute of Engineering, Hunan University of Science and Technology and Trans tech publications inc. their kind support in making MEGM 2010 possible.

Titanium and Zirconium Base Alloys in Ultra-Fine Grain state: Mechanical Stability and Failure Behavior DANILOV Vladimir1,2,a, EROSHENKO Anna1,b, SHARKEEV Yury1,2, ORLOVA Dina1,2, ZUEV Lev1 1Institute of Strength Physics and Materials Science SB RAS, Akademicheskii ave., Tomsk, 634055, Russia 2National Research Tomsk Polytechnic University, 30 Lenina ave., Tomsk, 634050, Russia advi@ispms.tsc.ru, beroshenko@ispms.tsc.ru Keywords: Titanium and zirconium alloys, biomedical materials, nanostructured materials, pressing, electron microscopy, microstructure, grain size, mechanical properties Abstract.
The SPD treatment would cause strengthening of materials, mostly due to grain refinement.
Both materials undergo viscous fracture.
Tjong, Nanocrystalline Materials.
Aleksandrov, Bulk Nanostructured Metal Materials, Akademkniga, Moscow, 2007

Strength concept of orthogonal anisotropic masonry l Masonry strength characteristics based on orthogonal anisotropic material Masonry materials have different intensity (as shown in table 1) by stretching and compressing, which can be determined by multidirectional single axis test.
The quadratic multinomial of orthotropic materials in one plane stress state is as bellow: (12) Because of the positive or negative shear stress does not affect the failure of the material, it can take ,and the eq. (12) can be simplified as bellow: (13) Where have six strength parameters, five of which can be made by single axis strength test
It needs to make same corresponding modification when it is applied to anisotropic obvious masonry materials Substituted the Page date o into eq. (10),the follow eq.(20) can be obtained
Reference [1] Andreaus U．Failure criteria for masonry panels under in plane loading[J].Journal of Structural Engineering，1996，122(1)：37-46 (in foreign ) [2]Lourenco P B，Rots J G，Blaauwendraad J．Continuum model for masonry：parameter estimation and validation[J]．Journal of Structural Engineering, 1998,124(06)：642—652(in foreign ) [3]Page, A.
(in foreign ) [4]Hoffman O．The brittle strength of orthotropic materials．J Composite Materials，1967,1：200~206(in foreign ) [5]Tsai S W,Wu E M．A general theory of strength for anisotropic materials．Journal of Composite Materials,1971,5(1) (in foreign ) [6] LIU L P ,TANG D X , TIAN Y B the experimental research of anisotropic intensity change rule of irrigation core concrete block masonry ,Journal of Building Structures 2005, 26(5): 91-95(In Chinese)

Nanostructured Materials in Electrochemistry, Wiley-VCH, Weinheim
Materials Chemistry and Physics, 97, pp. 213–218
Applied Surface Science, 249(1-4), 151-156
International Journal of Mechanical and Materials Engineering (IJMME), Vol. 5, No. 1, 53-58
Journal of Adv.

Nanotechnology will find its application in energy, medicine, electronics, computing, security, material sciences, etc.
In the last two decade, some studies have shown the potential improvement in properties and performances of fiber reinforced polymer matrix materials in which nano and micro-scale particles were incorporated.
Materials and methods Materials The plain weave glass fabric 600g/m2 are supplied by Binani industries limited, Mumbai, India.
&Material science, 12, pp.563-570
Goharshadi Crystallinity Behavior of MDPE Clay Nanocomposites Fabricated using Ball Milling Method , Journal of Composite materials, 43 (2009) 2821-2830

Study of an Inorganic Ion Exchanger Al2Ti(PO4)3.3333 Jinhe Jiang MicroScale Science Institute , Department of Chemistry and Chemical Engineering ,Weifang University, Weifang, 261061,China Corresponding author.
New complex inorganic ion exchanger Al2Ti(PO4)3.3333 was synthesized by a solid state reaction crystallization method. using Al2O3, TiO2 and NH4H2PO4 as raw materials.
Introduction Lithium and its compounds are widely used in ceramics, medicine, air conditioning, catalysts, high-energy lithium battery and light aluminum alloy, etc., especially for the thermonuclear reaction, lithium is the essential raw material[1-2].
Rare Metal, 2007,26(6),121 [2] Y.F.Liu, Kenta Ooi: Inoranic ion exchanger with ion-memery ability, J.Ion Exchange and Adsorption. 1994,10(3),246 [3] D.Q.Dong, J.Zhong, D.L.Liu, Y.F.Liu: LiCu0.5Mn1.5O4 synthesis and Li+ extraction/reaction with it in the aqueous phase, J.China Journal of Applied Chemistry . 1998,15(3),11 [4] Zhong h..
Prpperty of H2TiO3 type ion-exchangers and extraction of lithium from brine of natural gas wells J.Chinese Journal of Applied Chemistry.2000,17(3),307

However, these methods are accurate for creep life prediction of some high temperature materials within 1×105h.
The chemical compositions of base metal and weld joint materials are listed in Table 1.
The creep test is conducted according to materials-Creep and stress-rupture test in tension>.
It can be seen from Fig.2 that the creep characteristic of materials from experiments and modified θ projection concept method is consistent.
[7] Evans R W, Beden I, and Wilshire B, “Creep and fracture of engineering materials and structure,” Swansea, UK: Pineridge Press, 1984

Introduction Due to their potential application in a wide range of porous materials, ceramic foams have received an increasing interest in a few decades.
Materials and Methodology Analysis of the raw material.
Carrio´n: Journal Materials Science (2009), p. 4507
Poncelet, in Preparation od catalysts VI, chapter 4, Elsevier Science (1995)
Ahmad: Journal of Materials Processing Technology 207(2008), p 235

Sulfate attack is one of the most important factors causing deterioration of marine materials.
This paper will provide support for further revealing the deterioration mechanism of sulfate erosion of ECC and building a design method for toughening anti-sulfate marine materials.
ACI Special Publication on Concrete: Material Science to Applications SP. 206(2002) 373-400
Durability study on engineered cementitious composites (ECC) under sulfate and chloride environment, Construction and Building Materials. 133(2017) 171-181
Wang, Tensile performance of polyvinyl alcohol-steel hybrid fiber reinforced cementitious composite with impact of water to binder ratio, Journal of Composite Materials, 49(2015) 2169-2186

By Glotzer [5] simulation involves the application of mathematical models using a computer to study the underlying physical and chemical processes, and prediction of the behavior and properties of systems, including natural and artificial materials, flow in liquid and gases, energy at all scales including the cellular level and biomedical sequence.
Finite element analyses and Computational Fluid Dynamics are important parts of the Virtual environment, as they are replacing expensive physical prototyping, particularly in the early conceptual design stage, where important decisions have to be made regarding fundamental product geometry, materials and manufacturing processes.
Rapid Prototyping Journal, Vol.12, No.5, 2006, 304-309
[4] Gradinscak, M., Redesigning Engineering Education for a Globalised World, International Journal of Arts & Sciences, Vol.4, Number 25, 2011
WTEC Panel Report on International Assessment of the Research and development in Simulation-Based Engineering &Science, World Technology Evaluation Center, INC.