Impact of Particle Size on Properties of 100% Recycled End-of-Life Tire Rubber Sheets from Calendering

This study investigates additive-free cold calendering of ELT-derived rubber powders across three particle size fractions (<0.5 mm, 0.5-0.71 mm, and 0.71-0.90 mm) using a two-roll mill without external heating or virgin polymers, aiming to obtain a cohesive material. Results demonstrate particle size effects on material properties. The finest fraction exhibited the highest crosslink density (5.30 x 10(-4) molcm(-3)), approximately 18% greater than coarser fractions, correlating with superior hardness (approximate to 65 ShA) and elastic modulus (approximate to 7.5 MPa). Tensile properties ranged from 1.6-1.8 MPa stress and 60-75% elongation at break, positioning calendered sheets between low-temperature compression-molded GTR and high-pressure sintered materials reported in the literature. The cold calendering process achieves competitive mechanical performance with reduced energy consumption, simplified processing, and complete retention of recycled content. These findings support the development of regulation-compliant ELT recycling technologies, with potential applications in nonstructural construction panels, vibration-damping components, and protective barriers, advancing circular economy objectives while addressing emerging microplastic concerns.