Construction of a binary architecture of flower-like nickel phyllosilicate@zinc sulfide towards the robust, wear-resistant and thermal-stable epoxy nanocomposites

In the present study, a binary architecture of flower-like nickel phyllosilicate decorated using zinc sulfide nanoparticles ([email protected]) was constructed and introduced into epoxy resin (EP), yielding the robust, wear-resistant and thermal-stable nanocomposites. Several characterizations have been performed to confirm the synthesis of target [email protected] and explore its positive influence on the mechanical, tribological and thermal properties of EP nanocomposites. Based on the results, [email protected] could be dispersed homogeneously in the matrix without visible occurrences of debonding between interfaces, moderately improving the tensile strength and elastic modulus by 11.4% and 24.6%, respectively. The optimized tribological properties were achieved by adding 5% [email protected] and the wear rate could be reduced significantly down to 0.5×10−5 mm3/Nm, which was ca. 93% lower than pure EP. Thermal degradation analysis implied that presented [email protected] improved the thermal stability, showing pronounced suppressed mass loss and elevated char residues, while kinetic analysis demonstrated the rarely changed reaction order and steadily decreased activation energy of EP along with the increased [email protected]. This investigation provided a facile way to prepare the robust, wear-resistant and thermal-stable EP-based tribo-materials.