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Experimental Procedure Compatilizer production flow Compatilizer production flow: raw material and additive pre-processing→measurement and ingredients→mixing of materials→mix granulation by extruder→dry Blending technological process: raw material and additive pre-processing→measurement and ingredients→mixing of materials→ two-roll mill→ mix granulation by extruder→dry→injection molding sample preparation→performance test Fomular Group 1: Change the proportioning of PLA and PA6 respectively Table 1.
Acknowledgements This work was financially supported by the Shandong Science and Technology Development Project (2012GB020106).
(in Chinese) [4] Liang Bo Department of Materials Science & Engineering; North University for Ethnics; Yinchuan 750021; Ningxia Hui Autonomous Region; China.Synthesis of polylactic acid[J].Journal of Clinical Rehabilitative Tissue Engineering Research.2008(23)
Research Progress on PA6 Enhancement Modification[J].Plastics Science and Technology. 2011,39(02):100-104.
(in Chinese) [9] Qian Bozhang.Domestic and Foreign Development Situation of PLA[J].New Chemical Materials. 2008(11):36-38.

Nanostructured powder materials, or powders with increased amorphous ratio, can potentially lead to increased productivity during powder bed fusion, due to the hypothesis that nanostructured raw materials can be layer-sintered with lower specific energy, and consequently lower processing times when compared to commercial powders.
Sintering of such materials can potentially be done faster, as compared to conventional powders.
Through mechanical milling processes, nano-crystalline materials can be obtained with relatively simple equipment at a low-cost.
Langdon, The Fundamentals of Nanostructured Materials Processed by Severe Plastic Deformation, JOM x (2004) 58-63
Fujiwara et al., Outstanding Mechanical Properties in the Materials with a Nano / Meso Hybrid Microstructure, Mater.

Dynamic and Control Strategy of Payload Motion for Deployment System FANG Zi-fana, XIANG Bing-fei b, HE Qing-song c,WU De-xin, XIAO Hua-pan College of Mechanical &Material Engineering, China Three Gorges University, Yichang, Hubei Province, China afzf@ctgu.edu.cn, bx8375987@126.com, cheqingsong@sina.cn Keywords: dynamic model; control strategy; payload motion; collaborative simulation Abstract.
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The results provide with fruitful material and conduct the subsequent research[1~4].
Acknowledgements This article was supported by the National Natural Science Foundation of China (Grant No. 40772183, 50908018 and 41072223), supported by MIDAS/GTS.
MODEL TEST OF SOIL-SUBWAY TUNNEL DYNAMIC INTERACTION [J], Journal of Engineering Geology, 2007, 15 (4): 534-538 [4] Huang Q B, Peng J B, Shi Y L, etal.
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Introduction With the development of the computer science, the 3D CAD technique provides us a new method for highly efficient and intelligent design.
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IDA is carried out to investigate the nonlinear dynamic stability capacity, in which the material nonlinearity and geometric nonlinearity are considered simultaneously.
References [1] Qinxiang HE, Xiaohong TIAN and Dan SONG: Journal of Vibration and Shock Vol. 28-1 (2009), p. 68 (in Chinese) [2] Xiaoli XIE, Bo WANG and Weifeng ZHANG, et al: Engineering Mechanics Vol. 26-4 (2009), p.113 (in Chinese) [3] Yin GU and Weidong ZHUO: Journal of Civil Engineering and Management Vol. 28-3 (2011), p. 235 (in Chinese) [4] Lifeng LI, Jiamei HUANG and Wenpeng WU, et al: Journal of Earthquake Engineering and Engineering Vibration Vol. 32-1 (2012), p. 68 (in Chinese) [5] Hang ZHANG: Research on Dynamic Stability of Rigid Frame Bridge with High-piers under Earthquake.
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Generally, industry uses the sheet or film materials such as PE (polyethylene), PP (polypropylene) or PVC (polyvinyl chloride) for blow molding.
For example, under the temperature of 120-130 ℃, the elongation of PVC material may up to 500-550%.
When Mooney-Rivlin model is chosen to calculate, C10 and C01 in the equation (3) are the materials property constants, which are obtained by the experiment.
Acknowledgement This work was supported by the National Nature Science Foundation of China under contract No. 50675080.
Reference： [1] Adolf Illig and Peter Schwarzmann, in: Thermoforming: A Practical Guide, Chemical Industry Press (2007), p.14 [2] A.Attar, N.Bhuiyan and Vince Thomson: Manufacturing in blow molding: Time reduction and part quality improvement, Journal of Materials Processing Technology (2008), Vol. 204, p.284-298 [3] WANG Wen-bo and PIAN Xiao-peng: Seal Design of Box Edges Based on Nonlinear FEA, Mechanical Engineer (2009) Vol. 10, p.104-106 [4] LAI Jia-mei, LIU He-sheng, HUANG Han-xiong and BAO Zhong-xu: 3D Numerical Simulation of Parison Inflation in Extrusion Blow Molding, China Plastics (2004), Vol. 18, p.85-87 [5] LV Xiao-dong and WAN Min: Application research on microscope strain testing system of sheet metal, Forging & Stamping Technology(2007), Vol 8, p.101-104

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Acknowledgements This research was partially supported by the National Science Foundation (Grant NSF CMS 9802185), Air Force Materials Laboratory (USAF), Wright Laboratories (Dayton, Ohio), The University of Akron (Akron, Ohio) and the U.S.