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Journal of Shandong Institute of Building Materials,1998,12(s1):24～29
China Building Materials Science & Technology, 2001, 32 (1)
Journal of Xi'an University of Architecture & Technology. 2003, 35(1):82～84
ACI Material Journal, 1989, 86(2): 139～144
Materials and Structures, 1999, 32(10): 635～642

High energy ball milling has been used like alternative route for processing of materials.
Tungsten: Advanced Materials & Processes Vol. 154 (5) (1998)
Takacs: Materials Science Forum Vol. 269-272 (1998), p. 513
Niepce: Materials Science Engineering Vol.
Suzuki: Metallurgical and Materials Transactions Vol. 27A (1996), p. 4210.

However the improvements of coefficient of performance of mine fans are little because they are hindered by theories and material science, et al.
Journal of Anhui University of Science and Technology (Natural Science), Vol.13, p. 27
Journal of Hunan University of Science & Technology (Natural Science Edition), Vol.17 (2002), p. 9
Journal of University of Shanghai (Science and Technology), Vol.4 (1982), p. 1
Journal of Hunan University (Natural Science), Vol.44 (1999), p. 90

Materials science and engineering: an introduction. 3rd ed.
Materials Science Forum, v. 798-799, p. 732-736, 2014
The science and engineering of materials. 4th ed.
Introduction to materials science for engineers. 2nd ed.
Materials Science Forum, v. 820, p. 131-136, 2015 [10] MUNHOZ, A.

When used as anode materials for lithium ion batteries, the prepared SnO2 nanomaterial exhibited a relatively high reversible capacity of 950.9 mAh·g-1 and excellent cycling stability.
The morphology of the materials was observed by transmission electron microscopy (TEM, FEITECNALG2).
Furthermore, the small diameter character of the nanorods could significantly shorten the lithium ion diffusion length facilitating the prepared SnO2 nanomaterials as anode materials for lithium ion batteries [9].
Acknowledgement The financial support provided by the National Natural Science Foundation of China (No. 20871107) and Henan Outstanding Youth Science Fund (No. 0612002700) is gratefully acknowledged.
Wang: Journal of Power Sources Vol. 195 (2010), p. 7403 [2] J.P.

* Corresponding Author This research is supported by program of National Nature Science Foundation of China (No.90716027), and key program of Shanghai Municipal Education Commission (No.09ZZ88) Introduction The basic tenet of flexible structure is tight integration between the distributed intelligent materials and ontological structure, which permits the structure to apperceive environment and its character.
References [1] Noori.S.C, Hou.M.N: Smart Materials and Structures Review of Materials for the New Millennium, Proceedings of the Materials Engineering Conference ASCE, New York, 1999 [2] Hang-yin Ling, Kin-tak Lau1, Li Cheng1 and Kwok-wing Chow: Embedded fiber Bragg grating sensors for non-uniform strain sensing in composite structures.
Smart Materials & Structures, 14(5), pp982-988, 2005 [4] Qian Jinwu, Zheng Qinghua: Deformation sensing and incremental shape reconstruction for intelligent colonoscope.
Smart Materials & Structures, 18 (2), pp1-12, 2009 [7] Qian Jinwu,, Fan Hongchao, Zhang Yanan.
Journal of System Simulation, 15(21), pp4706-4713, 2009

Keywords: Piezoelectric materials, electro-mechanical coupling, piezoelectric bimorph.
As the physical material is deformed, dipoles are moved such that the polarization increases.
Acknowledgements This project was sponsored by the National Natural Science Foundation of China under grant No. 59905016 and the Research Foundation of Tsinghua University.
Wang: International Journal of Solids and Structures Vol.41 (2004), p. 4075
Ealey: Collection of Technical Papers - AIAA/ASME Structures, Structural Dynamics and Materials Conference Part 4 (1990), p.2221.

The statistical data on materials and applied load being collected in Thailand are used together with an investigation on the uncertainty of the concrete elastic modulus in the design code from 8 countries.
Reinforced concrete column is the case of uncertainty in material property.
Material uncertainty was in function of ultimate concrete strength resulting in random variables.
Tekeli, “ Uncertainty Modelling of Critical Column Buckling for Reinforced Concrete Buildings” ,Indian Academy of Sciences, Vol.36, pp. 267-280, 2011
International Journal of Materials Structural Reliability, pp. 59-74, 2004

Materials Characterization 54(3): 230-238
[2] Huang B, Liang S, and Qu X (2003) The rheology of metal injection molding, Journal of Materials Processing Technology. 137(1-3): 132-137
Journal of Materials Processing Technology 113(1-3):477-481
Journal of Materials Processing Technology 196(1-3):94-100
Polymer Engineering & Science 44(5):992-1002

Concomitant with it, the large deformation theoretics and implementations for materials obeying J2 plasticity laws have also been fairly progressed.
Therefore, finite deformation analysis involving hydrostatic pressure and Lode's angle for geological materials as well as concrete are at all times disputed.
Plasticity models for frictional materials such as concrete, soil and rock are most conveniently represented in principal stress space.
In frictional materials the form of the failure envelope is significantly impacted by the value of the confining pressure.
Mechanical properties of three high-strength concretes containing silica fume, ACI Material Journal, 92 (1995), 135-145