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Introduction Thermodynamic calculations are widely used in chemical engineering, materials science, biomedical engineering and other fields.
In the aluminum composite materials, there are many related research reports and literature about thermodynamic calculations and analyses.
Yu, Silicon dissolution and interfacial characteristics in Si/Al composites fabricated by gas pressure infiltration, Materials Chemistry and Physics, 139 (2013) 783-788
Fan, Rheo-processing of an alloy specifically designed for semi-solid metal processing based on the Al–Mg–Si system, Materials Science and Engineering, 476 (2008) 341-349
Chawla, The interface microstructure in alumina (FP) fibre/magnesium alloy composite, Journal of Materials Science, 25 (1990) 1563-1567.

Now, it has been widely used in many aspects, such as heating materials, electromagnetic screen and temperature-sensing element [4-6].
Experiment Part Materials and Instruments The main materials: LDPE, DGDA6098, China Petrochemical Co.
Research Progress on Polymer Based PTC Materials, J.
Journal of materials science, 1993, 28(1): 117-120
Harbin University of Science and Technology, 2010, pp. 28.

In this process, powder material is embedded as a thin layer to be sintered or melted by laser scanning.
Authors have reported that porous materials can be fabricated by this process in order to make artificial bone [11].
Precise and fine honeycomb structures of Ti-6Al-7Nb were fabricated by an improved laser forming process to develop new scaffold materials.
[7] Boyer, R., Welsch, G., and Collings, E.W., Materials Properties Handbook: Titanium Alloys, ASM International, 1994, pp.10
Powder Metallurgy & Particulate Materials (2009), CD-ROM

Nanotechnology holds the promise to dramatically improve performance of materials and devices with cheaper, better production processes.
Manufacturing and Material.
Such nanostructuring is expected to bring about lighter, stronger, and programmable materials and reductions in life-cycle costs through lower failure rates.
With overall improvement of life style and advanced use of products and materials, it contributes to pollution prevention and energy conservation.
It is yet unknown how nanostructured materials and other related nanotechnologies might affect human health and interact with the environment.

The conference topics of ICMIT 2011 include: Control Theory and Application, Magnetic Resonance Imaging, Actuators and Mechanism, Communication and Network Systems, Smart Materials and Structure, Ubiquitous Application, Welfare Engineering, Sensors and Signal/Image Processing, Biomedical Engineering, Embedded System, Robotics, Human Interface, Mechatronics and MEMS, Information Technology, Intelligent Control and System, Condition Monitoring/Fault Diagnosis, Applied Electromagnetics and Mechanics, Power Electronics.
And it is also to grateful to over 100 professors and experts for their reviewing work on all the papers which will be published in TTP according to the journal standards required.
They also thank very much all the sponsors, including Natural Science Foundation of China, The Society of Applied Electromagnetics and Mechanics -Japan, GES Co., Korea and China-Japan-Korea Joint Advanced Mechatronics Research Association.
The Editors October 12, 2011 Conference Organization General Conference Chairs Qingkai Han, Northeastern University, China Kazuhiko Takahashi, Doshisha University, Japan Chang-Hyun Oh, Korea University, Korea Honorary Chairs Bangchun Wen, Northeastern University, China Guobiao Wang, National Natural Science Foundation of China, China Yuechao Wang, Shenyang Inst. of Automation, Chinese Academy of Science, China Deshun Liu, Hunan Univ. of Sci. & Tech., China Advisory Board Yunlong Wei, Chongqing University of Technology, China Xiaohui Shi, Chongqing University of Technology, China Hong Wang, Northeastern University, China Xiaoguang Yu, University of Science and Technology Liaoning, China Xuejun Li, Hunan University of Science and Technology, China Tadashi Ishihara, Fukushima University, Japan Takakazu Ishimatsu, Nagasaki University, Japan Zhongwei Jiang, Yamaguchi University, Japan Hikaru Inooka, Research House LOGOS, Japan Toshiro Higuchi
Wei Sun School of Mechanical Engineering and Automation Northeastern University, Shenyang, Liaoning Province, China Organized by Northeastern University, China University of Science and Technology Liaoning, China Shenyang Institute of Automation, Chinese Academy of Science, China Chongqing University of Technology, China Hunan University of Science and Technology, China Sponsored by Natural Science Foundation of China (NSFC), China The Japan Society of Applied Electromagnetics and Mechanics, Japan GES Co., Korea China-Japan-Korea Joint Advanced Mechatronics Research Association Co-Sponsored by Chinese Association for Artificial Intelligence (CAAI), China Chinese Society of Mechanical Engineering (CSME), China Chinese Society of Automation (CSA), China The Society of Instruments and Control Engineers (SICE), Japan The Robotics Society of Japan (RSJ), Japan The Japan Society of Mechanical Engineers (JSME), Japan The Institute of Electronics Engineers

Bending of metal plates with high-energy laser beams presents a flexible materials forming technique where bending results from the establishment of a steep temperature gradient through the material thickness.
Today with improved processing and understanding of the mechanisms of laser forming, virtually any shape can be produced with applications extending to the aircraft, motor and materials industries [1].
Xu, Journal of Applied Mechanics Vol. 71 (2004), p321
McGrath, AM Korsunsky, Materials Science Forum Vol. 524-525 (2006), p299
Venter, A.M Korsunsky Journal of Strain Analysis Vol. 42 (2007), p497.

Journal Solid State Phenomena, 2008. 141-143
Advanced Engineering Materials, 2007. 9(4): p. 231-245
International Journal of Material Forming, Volume 1, Issue SUPPL. 1, July 2008, Pages 977-980
Materials Science and Engineering A, Volume 517, Issue 1-2, 20, 2009, Pages 8-16
[9] Favier, V., et al., Modelling of Semi-solid Processing, Chapter 6: Micromechanics and Homogenization techniques for Disordered Materials: Applications to semi-solid materials.

It is used as a means of analysis of materials, constructions, productions control and diagnosis during operating time.
Acoustic emission method is used as a means of analysis of materials, constructions, productions control and diagnosis during operating time.
Lighter and stronger materials have to be developed to achieve this ambitious goal; a large challenge for materials scientists.
Acknowledgement In this paper, the research was sponsored by the Jilin Provincial Science and Technology Department (Project No. 20140414025GH) and Changchun Science and Technology (Project No. 13GH15).
Journal of Acoustic Emission (USA).2001, (18-19):34-40

Characterization of Photoelectric Properties of ZnO by I-V Measurement Mengmeng Miao 1, a 1 Department of Materials Science and Engineering, Huazhong University of Science and Technology, Wuhan, China adevelopmmm@gmail.com Keywords: ZnO; I-V curves; photoelectric properties; MATLAB; LabVIEW Abstract.
Besides, this theory can be expanded to test the photoelectric properties of the other semiconductor materials.
And I-V curves can direct the application of these materials efficiently.
The properties and preparation methods are the precondition of application of materials.
On the other hand, this model could be used to explain other semiconductor of materials such as WO3 and SnO2.

The need for Al/B4C neutron absorbing materials has been increasing quickly due to the increasing need for energy.
Experiment 2.1 Materials.
Hark: The Minerals, Metals, and Materials Society. (2008), p. 3 [3] J.
Chen: Journal of Materials Science.
Chen: Journal of materials science.