ELUCIDATION OF CRYSTALLISATION PROCESS USING FFF 3D PRINTER ASSISTED IR THERMAL...
ELUCIDATION OF CRYSTALLISATION PROCESS USING FFF 3D PRINTER ASSISTED IR THERMAL IMAGING TECHNIQUE ON PLASTIC WASTE
Nowadays, the issue of plastic recycling has become one of the major issues of environmental protection and waste management. Since 1950, humans have produced more than 8 billion tons of plastic, of which more than half was discar...
Nowadays, the issue of plastic recycling has become one of the major issues of environmental protection and waste management. Since 1950, humans have produced more than 8 billion tons of plastic, of which more than half was discarded into landfills and only 9% was recycled. The majority of plastic waste stemmed from semi-crystalline polymers such PE, PP and PET. When recycled, the properties of these polymers deteriorated due to shrinkage and warpage issues related to the crystallisation process that occurred during the cooling process. The temperature gradient during cooling is able to control the crystallisation growth. However, determining the crystallization process of plastic waste during processing is difficult as generally plastic waste contains additives. Therefore, CPW uses IR thermal imaging technique as it can capture the temperature profile of plastic waste during 3D printing to study the temperature-crystallisation relationship. The existing techniques, such as hot-stage microscopy, X-ray synchrotron and in-situ light scattering, have several restrictions. Among them are non-simultaneous processes, expensive, and requiring high energy radiation sources. Furthermore, these techniques can only be applied to virgin plastic and are limited to transparent polymers that are free from additives and contamination. The captured temperature profile will be analysed using MATLAB to examine the crystallite structure at precise temperature, thus could control their properties through the processing temperature of the 3D printer. An innovative approach through experimental setup and technique used to investigate the crystallisation process will be the novelty of CPW. This research will contribute to at least four research papers with two ISI journals and two conference papers, and a patent application. The implementation of the MSCA will benefit and impact the recycling of plastic wastes in the world, and this is in line with EU’s strategy for the SDG 12 and SDG13.ver más
Seleccionando "Aceptar todas las cookies" acepta el uso de cookies para ayudarnos a brindarle una mejor experiencia de usuario y para analizar el uso del sitio web. Al hacer clic en "Ajustar tus preferencias" puede elegir qué cookies permitir. Solo las cookies esenciales son necesarias para el correcto funcionamiento de nuestro sitio web y no se pueden rechazar.
Cookie settings
Nuestro sitio web almacena cuatro tipos de cookies. En cualquier momento puede elegir qué cookies acepta y cuáles rechaza. Puede obtener más información sobre qué son las cookies y qué tipos de cookies almacenamos en nuestra Política de cookies.
Son necesarias por razones técnicas. Sin ellas, este sitio web podría no funcionar correctamente.
Son necesarias para una funcionalidad específica en el sitio web. Sin ellos, algunas características pueden estar deshabilitadas.
Nos permite analizar el uso del sitio web y mejorar la experiencia del visitante.
Nos permite personalizar su experiencia y enviarle contenido y ofertas relevantes, en este sitio web y en otros sitios web.