Design of polymeric UHMWPE-based composites with increased tribotechnical properties by mechanical activation, ion implantation, chemical modification and nanofiller enforcement

Abstract

Influence of Mechanical Activation (MA), Chemical Modification (ChM), Ion Implantation (IIm) and adding different size fillers (nano- and micro) onto physical-mechanical and tribotechnical properties of Ultra High Molecular Weight Polyethylene (UHMWPE) are investigated. By means of X-ray diffraction, IR-spectroscopy, DSC and SEM the structure and wearing pattern for a number of UHMWPE-based composite enforced by C and Al ₂O ₃ nanofibers, Cu SiO ₂ nanoparticles, Al ₂O ₃ AlO(OH)) microparticles were examined. Comparison of different ways of modification of UHMWPE binder to obtain composites on its basis is carried out. The mechanism to explain high wear resistance of composites with high-molecular weight matrix is discussed.

Original language	English
Title of host publication	Conference Program for the 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011
Pages	612-615
Number of pages	4
Publication status	Published - 2011
Event	3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011 - Shanghai, China Duration: 22 May 2011 → 26 May 2011

Other

Other	3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011
Country	China
City	Shanghai
Period	22.5.11 → 26.5.11

Keywords

Permolecular structure
UHMWPE
Wear resistance

ASJC Scopus subject areas

Mechanics of Materials

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Panin, S. V., Kornienko, L. A., Ivanova, L. R., Piriyayon, S., Poowadin, T., Mandoung, T., Sarondjaitam, N., Shilko, S. V., & Sergeev, V. P. (2011). Design of polymeric UHMWPE-based composites with increased tribotechnical properties by mechanical activation, ion implantation, chemical modification and nanofiller enforcement. In Conference Program for the 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011 (pp. 612-615)

Design of polymeric UHMWPE-based composites with increased tribotechnical properties by mechanical activation, ion implantation, chemical modification and nanofiller enforcement. / Panin, S. V.; Kornienko, L. A.; Ivanova, L. R.; Piriyayon, S.; Poowadin, T.; Mandoung, T.; Sarondjaitam, N.; Shilko, S. V.; Sergeev, Victor Petrovich.

Conference Program for the 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011. 2011. p. 612-615.

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Panin, SV, Kornienko, LA, Ivanova, LR, Piriyayon, S, Poowadin, T, Mandoung, T, Sarondjaitam, N, Shilko, SV & Sergeev, VP 2011, Design of polymeric UHMWPE-based composites with increased tribotechnical properties by mechanical activation, ion implantation, chemical modification and nanofiller enforcement. in Conference Program for the 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011. pp. 612-615, 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011, Shanghai, China, 22.5.11.

Panin SV, Kornienko LA, Ivanova LR, Piriyayon S, Poowadin T, Mandoung T et al. Design of polymeric UHMWPE-based composites with increased tribotechnical properties by mechanical activation, ion implantation, chemical modification and nanofiller enforcement. In Conference Program for the 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011. 2011. p. 612-615

Panin, S. V. ; Kornienko, L. A. ; Ivanova, L. R. ; Piriyayon, S. ; Poowadin, T. ; Mandoung, T. ; Sarondjaitam, N. ; Shilko, S. V. ; Sergeev, Victor Petrovich. / Design of polymeric UHMWPE-based composites with increased tribotechnical properties by mechanical activation, ion implantation, chemical modification and nanofiller enforcement. Conference Program for the 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011. 2011. pp. 612-615

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abstract = "Influence of Mechanical Activation (MA), Chemical Modification (ChM), Ion Implantation (IIm) and adding different size fillers (nano- and micro) onto physical-mechanical and tribotechnical properties of Ultra High Molecular Weight Polyethylene (UHMWPE) are investigated. By means of X-ray diffraction, IR-spectroscopy, DSC and SEM the structure and wearing pattern for a number of UHMWPE-based composite enforced by C and Al 2O 3 nanofibers, Cu SiO 2 nanoparticles, Al 2O 3 AlO(OH)) microparticles were examined. Comparison of different ways of modification of UHMWPE binder to obtain composites on its basis is carried out. The mechanism to explain high wear resistance of composites with high-molecular weight matrix is discussed.",

keywords = "Permolecular structure, UHMWPE, Wear resistance",

author = "Panin, {S. V.} and Kornienko, {L. A.} and Ivanova, {L. R.} and S. Piriyayon and T. Poowadin and T. Mandoung and N. Sarondjaitam and Shilko, {S. V.} and Sergeev, {Victor Petrovich}",

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AU - Panin, S. V.

AU - Kornienko, L. A.

AU - Ivanova, L. R.

AU - Piriyayon, S.

AU - Poowadin, T.

AU - Mandoung, T.

AU - Sarondjaitam, N.

AU - Shilko, S. V.

AU - Sergeev, Victor Petrovich

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N2 - Influence of Mechanical Activation (MA), Chemical Modification (ChM), Ion Implantation (IIm) and adding different size fillers (nano- and micro) onto physical-mechanical and tribotechnical properties of Ultra High Molecular Weight Polyethylene (UHMWPE) are investigated. By means of X-ray diffraction, IR-spectroscopy, DSC and SEM the structure and wearing pattern for a number of UHMWPE-based composite enforced by C and Al 2O 3 nanofibers, Cu SiO 2 nanoparticles, Al 2O 3 AlO(OH)) microparticles were examined. Comparison of different ways of modification of UHMWPE binder to obtain composites on its basis is carried out. The mechanism to explain high wear resistance of composites with high-molecular weight matrix is discussed.

AB - Influence of Mechanical Activation (MA), Chemical Modification (ChM), Ion Implantation (IIm) and adding different size fillers (nano- and micro) onto physical-mechanical and tribotechnical properties of Ultra High Molecular Weight Polyethylene (UHMWPE) are investigated. By means of X-ray diffraction, IR-spectroscopy, DSC and SEM the structure and wearing pattern for a number of UHMWPE-based composite enforced by C and Al 2O 3 nanofibers, Cu SiO 2 nanoparticles, Al 2O 3 AlO(OH)) microparticles were examined. Comparison of different ways of modification of UHMWPE binder to obtain composites on its basis is carried out. The mechanism to explain high wear resistance of composites with high-molecular weight matrix is discussed.

KW - Permolecular structure

KW - UHMWPE

KW - Wear resistance

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AN - SCOPUS:84866848748

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BT - Conference Program for the 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011

T2 - 3rd International Conference on Heterogeneous Materials Mechanics, ICHMM 2011

Y2 - 22 May 2011 through 26 May 2011