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Polymer Sciences
ISSN: 2471-9935
June 04-05, 2018
London, UK
Polymer Congress 2018
Page 20
4
th
Edition of International Conference on
Polymer Science and
Technology
Recent Publications
1. Bershtein V et al. (2015) The impact of ultra-low
amounts of introduced reactive POSS nanoparticles
on structure, dynamics and properties of densely
cross-linked cyanate ester resins. Europ. Polym. J.
67:128-142.
2. Bershtein V et al. (2015) The impact of ultra-low
amounts of amino-modified MMT on dynamics and
properties of densely cross-linked cyanate ester
resins. Nanoscale Research Lett. 10:165-179.
3. Bershtein V et al. (2016) Dynamics and properties of
high performance amorphous Cyanate Ester-based
subnanocomposites with ultralow silica content and
quasi-regular structure. Polymer. 103:36-40.
4. Bershtein V et al (2016) Silica subnanometer-sized
nodes, nanoclusters and aggregates in cyanate ester
based networks: structure and properties of hybrid
subnanocomposites. Europ. Polym. J. 85:375-389.
5. Bershtein V et al. (2016) Thermostable cyanate
ester resins and POSS-containing nanocomposites:
influence of matrix chemical structure on their
properties. Polym. Adv. Technol. 27(3):339-349.
Biography
Vladimir Bershtein (PhD, 1963, DSc 1980) with his group at Ioffe Insti-
tute of the Russian Academy of Sciences has performed numerous ex-
perimental studies during a few decades within such polymer physics
problems as the nature of relaxation transitions; physics of strength and
plasticity of polymeric materials; dynamics and properties of polymer
nanocomposites including thermostable (polyimide and cyanate es-
ter-based) and biocompatible ones, and dynamics of polymer hybrids.
He is the co-author of numerous publications, e.g., the first book on
“DSC of Polymers: Physics, Chemistry, Analysis, Technology”, reviews on
Far-IR spectroscopy (Adv Pol Sci 114,1994), on the original method of
Laser-interferometric creep rate spectroscopy of polymers (Adv Pol Sci
230, 2010), on polyimides and polycyanurate dynamics, etc.
vbersht.polmater@mail.ioffe.ruFigure 1:
DMA (1Hz). Relaxation spectrawere obtained for the indicated
nanocomposite at heatingwith the rate of 30C/min in air atmosphere up to
430°C for the sample cured up to 300°C (1) and post-cured up to 430°C (2)
and for post-cured sample in nitrogenmedium (3).