Research of the True Flow with High Polymers as a Critical Process Parameter

Xian Wei Wang; Guang Liang Cheng

doi:10.4028/www.scientific.net/AMM.490-491.34

Paper Titles

Study on Scheduling Method for Reentrant Autoclave Moulding Operation of Composite Materials
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Morphology and Strength of Cement Paste from Clay as Nanomaterial
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A Material Selection Criterion for Hot-Stamping Dies
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Investigation on TiC_P/Al Composite Coating by TIG Cladding
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Research of the True Flow with High Polymers as a Critical Process Parameter
p.34

Nanocrystalline Ni-30wt%Fe Supersaturated Solid Solution Synthesized by Mechanical Alloying
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The Effect of VC on the Sintering Ability and Microstructure of WC-Al₂O₃ Composites
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Operation Mechanism of Terminal Distribution of Productive Materials
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Optical Properties of DLC-Ag Nanocomposite and Grating Structures on their Base
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 490-491Research of the True Flow with High Polymers as a...

Research of the True Flow with High Polymers as a Critical Process Parameter

Abstract:

In this article should be noted that the accuracy of determining the viscosity of the flow is particularly low in the highly elastic with state of the polymer. It is therefore very important to identity the viscosity of the flow, which has great practical significance. solidity can be changed as a result of intermolecular interaction which can be observed in the process of polymer swelling, which means improving its chain flexibility and lowering the temperature of vitrifying. It should be noted that the processing of the experiment showed no pronounced dependence of the voltage, so it is under-read as the average results for all levers of the stress at a fixed temperature. Processed a method for determining the viscosity of polymer materials, which allows you to divide segmental strength and toughness of the true flow.

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Periodical:

Applied Mechanics and Materials (Volumes 490-491)

Pages:

34-37

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.490-491.34

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Online since:

January 2014

Authors:

Xian Wei Wang, Guang Liang Cheng

Keywords:

Chemical Composition, LVP, Mechanical Property, Physical Properties, VPM

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References

[1] Kerr H W, Kurz W. Solidification of peritectic alloys. International Materials reviews, 1996, 41(4): 129-164.

DOI: 10.1179/imr.1996.41.4.129

Google Scholar

[2] Fujishima A, Honda K. Titanium dioxide photocatalysis [J]. Nature, 1972, 37(1): 238-245.

Google Scholar

[3] K.P. Thurlow. Electroless nickel plating on aluminum connectors [J]. Trans. Inst. 1989, 67: 82.

Google Scholar

[4] Gorman MR. Plate wave acoustic emission [J]. JASA, 1991, 90(1): 358-364.

Google Scholar

[5] Hongwu Qin, Haifu Li, Qinsheng Du. Analysis Technique for the Spectral Characteristic of Acoustic Emission Signals. HSME 2012, Advanced Materials Research 2013, V 663: 503-506.

DOI: 10.4028/www.scientific.net/amr.663.503

Google Scholar

[6] Hongwu Qin, Xiaoli Wang, Qinsheng Du. Research of special form for analysis properties in transmit channels of NDT system. ICMECE 2012, Applied Mechanics and Materials 2013, V313-314: 1316-1319.

DOI: 10.4028/www.scientific.net/amm.313-314.1316

Google Scholar