A. V. Kalacheva scite author profile

Microscopic structural rearrangements in expanding polylactide foams were probed using multiple dynamic scattering of laser radiation in the foam volume. Formation and subsequent expansion of polylactide foams was provided by a rapid or slow depressurization of the “plasticized polylactide–supercritical carbon dioxide” system. Dynamic speckles induced by a multiple scattering of laser radiation in the expanding foam were analyzed using the stacked speckle history technique, which is based on a joint mapping of spatial–temporal dynamics of evolving speckle patterns. A significant decrease in the depressurization rate in the case of transition from a rapid to slow foaming (from 0.03 MPa/s to 0.006 MPa/s) causes dramatic changes in the texture of the synthesized stacked speckle history maps. These changes are associated with transition from the boiling dynamics of time-varying speckles to their pronounced translational motions and are manifested as significant slopes of individual speckle traces on the recovered stacked speckle history maps. This feature is interpreted in terms of the actual absence of a new cell nucleation effect in the expanding foam upon slow depressurization on the dynamic scattering of laser radiation.

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Semicontinuous Production of Viscose Textile Fibres

Radishevskii

Kalacheva

Serkov

2003

Fibre Chemistry

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Kalacheva

Медведев

Serkov

2001

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A. V. Kalacheva

Quasi-Adiabatic Expansion of the Polylactide Foam: Features of the Porous Matrices Formation in the Region of Transition between Sub- and Supercritical States of Plasticizing Carbon Dioxide

Peculiarities of Quasi-Isothermal Foaming of the SCF-Plasticized Polylactide: the Effect of Transition from Foam Expansion to Its Collapse

Speckle-Based Sensing of Microscopic Dynamics in Expanding Polymer Foams: Application of the Stacked Speckle History Technique

Semicontinuous Production of Viscose Textile Fibres

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