Study on Thermomechanical Properties and Morphology of an Epoxy Resin Thermally Conductive Adhesive under Different Curing Conditions

Abstract: An epoxy resin thermally conductive adhesive is a type of thermosetting polymer encapsulation material that exhibits comprehensive performance, and the thermomechanical properties of this adhesive vary significantly under different curing conditions. In this paper, spherical alumina was used as a filler for thermal conductivity to prepare an epoxy resin thermal conductivity adhesive using a multistage freezing mixing method. The effects of various curing conditions on the thermal− mechanical properties and fra… Show more

“…The shear strength increased as the mass content of BIMPA increased and reached 41.02 MPa for EP-BIMPA-7.5 (Figure a). This value positions it competitively among latent curing adhesives. − The stainless steel adhered with a lap area of 25 × 20 mm × mm 2 can bear a load of 47.44 kg. Then, the adhesive properties of EP-BIMPA-7.5 were further evaluated in other self-adhesion systems, such as alumina, rubber, glass, and glass fiber reinforced composites (GFRC).…”

High-Performance One-Component Epoxy Adhesive Based on the Synergistic Effect of Lignin-Derived Triaryl-Imidazole and Phytic Acid

“…The shear strength increased as the mass content of BIMPA increased and reached 41.02 MPa for EP-BIMPA-7.5 (Figure a). This value positions it competitively among latent curing adhesives. − The stainless steel adhered with a lap area of 25 × 20 mm × mm 2 can bear a load of 47.44 kg. Then, the adhesive properties of EP-BIMPA-7.5 were further evaluated in other self-adhesion systems, such as alumina, rubber, glass, and glass fiber reinforced composites (GFRC).…”

High-Performance One-Component Epoxy Adhesive Based on the Synergistic Effect of Lignin-Derived Triaryl-Imidazole and Phytic Acid