Researchers from the Skoltech Petroleum Center presented new results that will improve the predictions of stress redistribution used in strength models of composite materials, which will result in fewer tests and costs needed for their production.
With the booming development of 5th generation (5G) mobile networks, various electronic devices have been widely used to improve people's living standard.
In an article published in Polymers, researchers prepared plant-filled polymer composites using highly plasticized PVC, investigating their structural, thermal, and mechanical properties to enhance eco-friendliness and explore potential applications.
PI Ceramic introduces the new product category “Piezoceramic Composites” based on the development of a new manufacturing technology. In this technology, piezoelectric ceramics are embedded in filling polymers. For this purpose, materials with high stiffness as well as with highly elastic polymer matrices can be used.
In a recent study published in Polymer Testing, researchers from China developed SiO2/PDMS composites with customized microstructures, enhancing their mechanical and shock-absorbing properties for improved impact resistance.
In a recent article published in Scientific Reports, researchers developed an alginate-chitosan biopolymer composite with decellularized extracellular matrix (dECM) bioink for organ-on-a-chip articular cartilage, enhancing cartilage tissue engineering with improved cell growth and differentiation.
Inside Tarik Dickens' lab at the FAMU-FSU College of Engineering, researchers are fine-tuning the tools used in 3D printing, helping to create better, stronger materials for a wide variety of applications.
This study explores the use of modified chitosan with vinyl/silane monomers for enhanced oil recovery in acidic reservoirs, demonstrating superior performance in laboratory and field-scale evaluations.
Scientists at the Department of Energy's Oak Ridge National Laboratory have developed a method that demonstrates how fiber-reinforced polymer composite materials used in the automotive, aerospace and renewable energy industries can be made stronger and tougher to better withstand mechanical or structural stresses over time.
In a ground-breaking first, researchers created scaffolds with enhanced strength by fabricating 20 vol% polydopamine-modified nano hydroxyapatite (pDA-nHA), featuring a distinctive lamellar structure.
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