Antiplasticization of polymer materials: Structural aspects and effects on mechanical and diffusion-controlled properties

Antiplasticization of polymer materials: Structural aspects and effects on mechanical and diffusion-controlled properties

Antiplasticization of glassy polymers, arising from the addition of small amounts of plasticizer, was examined to highlight the developments that have taken place over the last few decades, aiming to fill gaps of knowledge in the large number of disjointed publications. The analysis includes the rol...

Full description

Saved in:
Bibliographic Details
Main Authors: Leno Mascia, Ioannis Kouparitsas, Davide Nocita, Xujin Bao
Format: Default Article
Published: 2020
Subjects:
antiplasticization
carbohydrate
glassy polymers
membrane
pharmaceutical
physical ageing
plasticizer
Science & Technology
Physical Sciences
Polymer Science
GLASS-TRANSITION TEMPERATURE
CARBON-DIOXIDE PLASTICIZATION
SECONDARY LOSS TRANSITIONS
STARCH-WATER SYSTEMS
FREE-VOLUME
POSITRON-ANNIHILATION
GAS SORPTION
THERMODYNAMIC ASPECTS
ATOMISTIC SIMULATION
ANTI-PLASTICIZATION
Chemical Sciences
Engineering
Online Access:https://hdl.handle.net/2134/12519986.v1
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Antiplasticization of glassy polymers, arising from the addition of small amounts of plasticizer, was examined to highlight the developments that have taken place over the last few decades, aiming to fill gaps of knowledge in the large number of disjointed publications. The analysis includes the role of polymer/plasticizer molecular interactions and the conditions leading to the cross-over from antiplasticization to plasticization. This was based on molecular dynamics considerations of thermal transitions and related relaxation spectra, alongside the deviation of free volumes from the additivity rule. Useful insights were gained from an analysis of data on molecular glasses, including the implications of the glass fragility concept. The effects of molecular packing resulting from antiplasticization are also discussed in the context of physical ageing. These include considerations on the effects on mechanical properties and diffusion-controlled behaviour. Some peculiar features of antiplasticization regarding changes in Tg were probed and the effects of water were examined, both as a single component and in combination with other plasticizers to illustrate the role of intermolecular forces. The analysis has also brought to light the shortcomings of existing theories for disregarding the dual cross-over from antiplasticization to plasticization with respect to modulus variation with temperature and for not addressing failure related properties, such as yielding, crazing and fracture toughness.

Similar Items