Physicochemical Properties of Modified Polyester-Polyvinylchloride Compositions

The regularities of compaction process of foam polystyrene plastics in the liquid mediums have been discovered. The influence of medium nature, temperature and technological characteristics of foam polystyrene (imaginary density, shredding degree) on the kinetics of gas phase release in the conditions of polystyrene segmental mobility has been determined. The design and method of calculation of the reactor for the process of foam polystyrene degazation via the continuous scheme is offered.

Section: Resultsmentioning

confidence: 89%

Physico-Chemical and Technological Regularities of Foam Polystyrene Degazation in the Liquid Medium

Moravskyi¹,

Levytskyi²,

Bratychak³

et al. 2019

“…This shows that the modified composite is less rigid and hard compared to the unmodified one. Obviously, this is a result of the mobility reduction of atomic groups and segments due to the change in the nature of intermolecular and interphase interactions between PVC modifier and polyester matrix [10]. The study points out [11] the mechanism of the reinforcing impact of thermoplastic modifier on polyester materials that prevents the growth of a large crack during destruction.…”

Section: Resultsmentioning

confidence: 99%

The Effect of Poly(vinyl chloride) Modifier and Filler Nature on Properties of Polyester Composites

Levytskyi¹,

Katruk²,

Masyuk³

et al. 2018

Abstract.1 The paper determines the influence of polymer modifier (poly(vinyl chloride)) and finely dispersed inorganic filler on the elastic-deformation and thermophysical properties of polyester materials. The research discovers the change of deformation modulus, elasticity modulus, high elasticity modulus, surface hardness, Vicat softening point, and technological shrinkage of modified polyester composites filled with calcium carbonate and aluminum oxide.

“…Among the physical methods of polymer materials modification which allow directional influence on the supramolecular structure and properties the prevalent are: creation of polymer blends of different nature (thermoplastic with each other and thermosetting with thermoplastic [1][2][3]); creation of polymer composites with inert fillers of different nature [4][5][6]; modification of polymer materials with active additives (nucleators, plasticizers, foamers [7][8][9]).…”

Section: Introductionmentioning

confidence: 99%

Properties of the Composites Made of Glauconite and Polyaniline in Aqueous Solutions of Phosphoric Acid

Nesterivska¹,

Makogon²,

Yatsyshyn³

et al. 2020