Composite Materials conferences organized by ScienceFather group. ScienceFather takes the privilege to invite speakers, participants, students, delegates, and exhibitors from across the globe to its Global Conferences on Composite Materials .
11th Edition of International Research Awards on Composite Materials24-2...
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11th Edition of International Research Awards on Composite Materials24-25 Sep 2023 Mumbai, India
Simonelli undertakes research to reuse composite materials Simonelli Group is currently undertaking a research and development project to reuse composite materials, that nowadays have a vast range of uses and applications thanks to their durability and longevity, but which are also very difficult to dispose of. The De-Manufacturing research project, developed by Delta srl and Simonelli Group, is part of the Marche Region’s Marche Applied Research Laboratory for Innovative Composites (MARLIC) platform in the context of ‘Sustainable manufacturing: eco-sustainability of products and processes for new materials and de-manufacturing’. “We are truly delighted to take an active part in this virtuous synergy, promoted and developed also within the MARLIC platform as advocates of a dual objective, to make a strong contribution to the transition towards a circular economy and to grow and develop the local industrial system,” says Fabio Ceccarani, Simonelli Group Managing Director. “The De-Manu
International Conferences on Composite Materials https://composite-materials-conferences.sciencefather.com/ Award Nomination - https://x-i.me/compram1 Abstract Submission - https://x-i.me/compabst2 Lightweight reinforced resin composite materials using clay particles An international team of researchers, led by Dr. Umar Abdul Hanan (Universiti Teknologi Malaysia (UTM)) has successfully developed a method that uses montmorillonite (clay) particles to reinforce resin composites. Unsaturated polyester (UP) resin is a low cost thermoset with excellent processing ability and mechanical properties that finds applications in fiber-reinforced polymer (FRP) materials. It also crosslinks readily in the presence of a catalyst such ketone peroxide, forming an even stronger and stiffer resin. Unfortunately, this also leads to lower fracture toughness . Several methods to enhance the toughness of the cross-linked resin have been proposed; one such method involved blending with nano-fillers m
In the dynamic realm of materials science, polymer nanocomposites have emerged as a revolutionary class of materials with unparalleled versatility and performance. From automotive engineering to biomedical technology, polymer nanocomposites are revolutionizing industries. This article explores the potential of polymer nanocomposites, highlighting their contributions to advancing materials science and supporting a sustainable future.1 What are Polymer Nanoparticles? Polymer nanoparticles, often termed nanofillers or nanoscale additives, are integral to polymer nanocomposites, imbuing them with exceptional properties. Ranging from 1 to 100 nanometers in diameter, these nanoparticles integrate into the polymer matrix, influencing mechanical strength, thermal conductivity, and electrical resistivity. Carbon-based nanoparticles like carbon nanotubes (CNTs) and graphene reinforce polymer matrices effectively, while clay nanoparticles enhance mechanical reinforcement and flame retardancy. M
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