Perspectives of Application of 3D Shape Memory Composite Materials for Peristaltic Transportation of Slurries

Maria A. Vasilyeva

doi:10.4028/www.scientific.net/KEM.685.291

Paper Titles

Convection Heat Transfer on a Vertical Surface in Porous Media
p.272

One-Dimensional Wave Propagation in a Three Phase Poroelastic Column
p.276

Hydrodynamics and Heat Transfer in the Coolant Flows in the Elements of the Technical Designs of Industrial Systems
p.280

Study of Bone Tissue Stress and Strain State Aimed at Development of Intelligent Biomaterials for Osteoimplantation
p.284

Perspectives of Application of 3D Shape Memory Composite Materials for Peristaltic Transportation of Slurries
p.291

Effect of Copper Additives on Mechanical and Tribotechnical Properties of Sintered Composites Al-Sn
p.295

On Zero-Order Optimization in Problem of the Pressure Computing in Finite Elastic-Creep Deformations
p.300

Deforming of Elastic-Plastic Medium with Self-Similar Restriction
p.305

Experimental Studies of Thermoelectric Characteristics of Plastically Deformed Steels ST3, 08KP and 12H18N10T
p.310

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Perspectives of Application of 3D Shape Memory Composite Materials for Peristaltic Transportation of Slurries

Abstract:

This paper is devoted to improvement of application of a peristaltic transport of heavy high-viscosity materials using magnetically active material. The main problems that arise when pumping these substances are associated with their low mobility and high shear stress. In various countries of the world peristaltic pumps are increasingly used for this purpose. A fundamentally new approach to transportation of liquid and viscous media consists in using magnetic pumps. Heavy oil and highly concentrated slurry tailings mineral resources are non-conductive materials, and as a result, require the active inducement effect on the portion of the material of the working chamber of the direct channel.

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Key Engineering Materials (Volume 685)

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291-294

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.685.291

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Online since:

February 2016

Authors:

Maria A. Vasilyeva

Keywords:

Composite Materials, Magnetic Field, Peristaltic Transportation, Pipeline, Slurry

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References

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