High Pressure Nano-Destruction of a Brittle Polymeric Materials Surface

Anatoli Svirydzionak; Sergey Chizhik; Mikhail Ihnatouski

doi:10.4028/www.scientific.net/SSP.199.667

Paper Titles

Influence of Flat Lapping Kinematics on Machinability of Ceramics
p.615

Spectral and Statistical Analysis for Ceramic Plate Specimens Subjected to Impact
p.621

Technological Problems in Lapping on Flat Surfaces of Ceramic Parts
p.627

Wear of Electroplated Tools Used for Flat Grinding of Ceramics
p.633

Partition of the Optimality Problems in Mechatronics
p.641

Teaching in Automatic Control and Robotics Discipline in Terms of Changes in Higher Education System: Experiences and Suggestions
p.648

Control of the Hydrostatic Load Unit with the Electronic Control System
p.657

Didactic Models Used on Mechatronic Courses
p.661

High Pressure Nano-Destruction of a Brittle Polymeric Materials Surface
p.667

HomeSolid State PhenomenaSolid State Phenomena Vol. 199High Pressure Nano-Destruction of a Brittle...

High Pressure Nano-Destruction of a Brittle Polymeric Materials Surface

Abstract:

The regularity of the erosion wear of a surface of a brittle polymeric material under the conditions of high-pressure (high-velocity) water-jet impact was examined using the atomic-force microscope. Investigations results proved that the elementary mechanism of erosive failure of brittle polymers in response to pressure and cyclic loads at micro and nanolevel may have brittle character, as well as elastoplastic and plastic character under severer regimes. The process of hardening of the fine (nanolevel) superficial layers of PMMA material has been determined in conditions of high-velocity water-drop loading.

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Periodical:

Solid State Phenomena (Volume 199)

Pages:

667-671

DOI:

https://doi.org/10.4028/www.scientific.net/SSP.199.667

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Online since:

March 2013

Authors:

Anatoli Svirydzionak, Sergey Chizhik, Mikhail Ihnatouski

Keywords:

Erosion, High-Pressure, Inhomogeneity, Nano-Destruction Micromechanics, Surface

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References

[1] A. I. Sviridenok , M. I. Ihnatouski, Investigation of micro and nanogeometry of organic glass surface treated by a Water-drop jet, Friction and Wear. 24 (2003) 186-191.

Google Scholar

[2] S. Davis, Microhydro: Clean Power from Water, New Society Publishers, (2003).

Google Scholar

[3] M. L. Heific, M. I. Ihnatouski, Simulation of joint technological affectings at the combined machining by the concentrated energy flows, in Engineering industry and XXI-st century technosphere, DonNTU, Doneck, 2011, pp.168-174.

Google Scholar

[4] A.I. Sviridenok and et al., Investigation of micro and nanogeometry of polymethylmethacrylate surface treated by a Water–drop jet, Friction and Wear. 24 (2003) 186-191.

Google Scholar

[5] A.V. Liopo, O.V. Chumakova, S.A. Chizhik, Atomic force microscopy used for synaptosome membrane testing, Publisher center BSU, Minsk, (2002).

Google Scholar

[6] A.I. Sviridenok, S.A. Chizhik, M.I. Petrokovets, Mechanics of Discrete Frictional Contact, Science and Technics, Minsk, (1990).

Google Scholar

[7] N.I. Myshkin, C.K. Kim, M.I. Petrokovets, Introduction to tribology, Cheong Moom Gak, Seoul, (1997).

Google Scholar