Thermal stability of epoxy nanocomposites: surface treatment and morphology impact based on nano SiO₂ and hBN fillers

Abstract: Epoxy resin is one of the most commonly used thermosetting macromolecular synthetic materials. It displays excellent adhesiveness properties, good dielectric property, mechanical property and chemical stability. Consequently, epoxy resins have been widely used for many industrial purposes, such as electrical casting into power transformers, ignition coil systems and potting. In this paper, TGA and DSC measurements were carried out to evaluate the thermal stability of epoxy nanocomposites. Based on the results … Show more

“…The first one is the T 5% which refers to the temperature at which 5% weight loss occurred. 57 The second is the temperature range, where major weight loss is carried out based on polymer decomposition. 58 The temperature value of T 5% was obtained 343°C for pure GFRP composite.…”

Investigation of physical, mechanical, and thermal properties of glass fiber reinforced polymer composites strengthened with KH550 and KH570 silane-coated silicon dioxide nanoparticles

“…The first one is the T 5% which refers to the temperature at which 5% weight loss occurred. 57 The second is the temperature range, where major weight loss is carried out based on polymer decomposition. 58 The temperature value of T 5% was obtained 343°C for pure GFRP composite.…”

Investigation of physical, mechanical, and thermal properties of glass fiber reinforced polymer composites strengthened with KH550 and KH570 silane-coated silicon dioxide nanoparticles

Zero-dimensional nanomaterials for flame retardant epoxy thermosets and composites

Studies on mechanical and thermal properties of cubic boron nitride (c-BN) nanoparticle filled carbon fiber reinforced polymer composites