Recycling glass-fibre-reinforced plastics in the automotive sector

Purpose. The authors' goal is to determine the behavior of insulated rail joints with polymer-composite fishplates without glueing in the consideration of dynamic loadings regarding to own laboratory tests. In this paper they introduce the applied measurement opportunities. Methodology. Dynamic (fatigue) bending tests were performed by insulated rail joints assembled with plastic-polymer fishplates. The special laboratory measurements are related to digital picture/video measurement technique and assessment method executed by GOM hardware and software, as well as computer tomography according to laboratory bending tests. Findings. In previous papers the authors published the results of glued-insulated rail joints, in this period they continued their research with the investigation of rail joints with plastic-polymer fishplates without glueing. They tested two different types of rail fishplates made of plastic-polymer material. For the rail joints with fishplates but without glueing, the authors applied special measurement techniques by GOM products (Tritop, Aramis) that enable high precision digital measurement techniques with spectacular visualization results. The computer tomography records ensure the opportunity to be able to receive information about inner crackings and faults of plastic-polymer fishplates, with also high precision measurements. The assessment method has to be developed for these specific measurement methodologies to be able to compare the results and define scientific statements. Originality. Up to now any researcher and research group have been dealing with insulated rail joints with special plastic-polymer fishplates without glueing applied mentioned special techniques, no one determined the exact deterioration process of these joints, as well as the crack growing phenomenon in the cross section of the fishplates. Practical value. The research team of the authors had the possibility to see into the details of glass-fibre reinforced resin bonded plastic fishplates during laboratory tests, as well as they publish timely information in the consideration of their laboratory tests' results. This result can be applied in railway engineering at all stages: design, construction, maintenance&operation in the future.

show abstract

Recycling of HIPS and multilayer films with SEBS-based additives

Kasi,

Krishnakumar

2023

Nanomaterials and Energy

View full text Add to dashboard Cite

With the evolution of new polymers and an increase in their scope of applications, the use of natural resources such as petroleum products for polymer production has seen a drastic increase in the past few years. With production rates higher than ever and rapid, unsafe disposal of used polymers has taken a toll on the environment and other species through pollution. Even though there are alternative solutions, including bioplastics manufactured from greener sources and biodegradable plastics that can disintegrate in a shorter time period, these alternatives are currently in their early stages and hence expensive. It is also more challenging for them to meet the high demands in terms of both quantity and properties. The next nearest alternative, recycling, is the best available solution to avoid plastic waste entering landfills and to reduce raw material demands. This study aims to determine the effectiveness of a newly introduced styrene–ethylene–butadiene block copolymer (SEBS)-based property enhancer (WinMod 300) with disposed high-impact polystyrene (HIPS) and a maleic anhydride-grafted SEBS compatibilizer (WinMod 110) with disposed multilayer films (low-density polyethylene and polyester layers). Recycled compounds were tested for necessary and significant mechanical properties and subjected to material characterization, and the results are presented in this paper.

show abstract

Recycling glass-fibre-reinforced plastics in the automotive sector

Cited by 4 publications

References 12 publications

Closed-loop innovation for mobile electronics - the business model innovation approach of the sustainablySMART project

Closed-loop innovation for mobile electronics - the business model innovation approach of the sustainablySMART project

Supplementary Laboratory Investigations of Modern Plastic-Polymer Fishplates for Rail Joints

Recycling of HIPS and multilayer films with SEBS-based additives

Contact Info

Product

Resources

About