Approximation of the Rheological Properties of Composite Materials

Irina Garkina; Alexander Danilov

doi:10.4028/www.scientific.net/KEM.777.32

Paper Titles

Characteristics of Fabric-Foam-Fabric Plied Material: Water Transport Capability
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Trials of Developing a Magnetic Aluminum Metal Matrix Composite through Friction Stir Spot Forming
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High Density Polyethylene/Date Palm Fiber Composites: Effect of Fiber Loadings on the Dynamic Mechanical Thermal Properties
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Enhancing Mechanical Properties of Polyvinyl Alcohol Fiber Reinforced High Density Polyethylene Composites
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Approximation of the Rheological Properties of Composite Materials
p.32

Preparation and Properties of a Novel High-Strength Foam
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Improvement Filler-Rubber Interaction and Mechanical Properties of Silica/NR Vulcanizates by Using Masterbatch Processing
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The Synthesis and Characterizations of Aluminums Doped Barium Ferrite (BaAlFe₁₁O₁₉)
p.50

Influence of Sintering Temperature on Structure and Electrical Properties of Modified-BNKT Lead-Free Piezoelectric Ceramics
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HomeKey Engineering MaterialsKey Engineering Materials Vol. 777Approximation of the Rheological Properties of...

Approximation of the Rheological Properties of Composite Materials

Abstract:

The rheological properties of polymer composite materials for special purposes in molecular, structural and complex plasticization are investigated. The possibility of approximating the rheological properties of epoxy composites to protect against radiation by a multiplicative polynomial-exponential function is shown (approximation of the functions of two arguments in the form of a product of two one-dimensional functions). Analytical dependences of the viscosity of epoxy binder on temperature and percentage of additive are given. The results of optimization (optimal concentration of plasticizer) are indicated.

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Periodical:

Key Engineering Materials (Volume 777)

Pages:

32-36

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.777.32

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Online since:

August 2018

Authors:

Irina Garkina*, Alexander Danilov

Keywords:

Approximation, Optimization, Polymeric Composite Materials, Rheological Properties, Structure

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References

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