Abstract
Expanded polystyrene is widely used as a material for packaging, in modern construction as a heat and sound insulation layer, in thermal insulation systems for buildings, as well as tanks and pipelines. It is additionally used in foundry engineering for the production of models which are gasified during the production of castings from ferrous and non-ferrous alloys under the contact with liquid metal. The use of expanded polystyrene products is associated with waste generation, both in production and in consumption. About 40–50 kg/person of polystyrene waste is generated per year. The peculiarity of polymeric wastes is their resistance to aggressive environments. They do not rot and the destruction processes in natural conditions proceed rather slowly, with the formation of harmful substances that poison the environment. Therefore, the problem of the processing of waste from polymeric materials is of great importance, not only from the standpoint of environmental protection, but also due to the fact that in conditions of a shortage of polymer raw materials, this waste becomes a powerful raw material resource. This article describes the prospects for recycling expanded polystyrene wastes in foundry engineering. In this work, the properties of molding and core sands containing a combined binder, consisting of a solution of expanded polystyrene wastes in turpentine and clay were investigated, and their main characteristics (weight during stretching and crumbling) were determined. Molding and core mixtures, which contain only a binder in the form of a solution of expanded polystyrene in turpentine, have a crude strength of not more than 0.01 MPa. The introduction of a mixture of clay in the amount of 2–3% allows a crude strength of the mixture of up to 0.05 MPa to be obtained. After drying, the investigated mixtures containing a solution of expanded polystyrene wastes and clay have a tensile strength of up to 2.1 MPa. Mixtures into which a solution of polystyrene wastes and clay was introduced have an insignificant gas capacity and satisfactory gas permeability.
Highlights
The use of products made of polymeric materials is inextricably linked with the generation of wastes, both in the field of production and in the field of consumption
Preparation of such a solution from expanded polystyrene (EPS) waste in turpentine showed the first positive result of the study on their utilization, namely that there is a sharp decrease in the volume of waste
The possibility was investigated of obtaining molding of a sufficient raw strength by introducing small additives of molding clay mixtures with a binder solution of EPS waste in turpentine
Summary
The use of products made of polymeric materials is inextricably linked with the generation of wastes, both in the field of production and in the field of consumption. The peculiarity of polymer waste is their resistance to aggressive environments. The processes of their destruction in natural conditions are quite slow, with the formation of harmful substances that poison the environment. The problem of processing and recycling polymeric waste is currently of great importance, from the standpoint of environmental protection and due to the fact that in conditions of shortage of polymeric raw materials, such wastes become a powerful raw material resource
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