Random Copolymers Based on 2‐Ethylhexyl Acrylate Exhibit Unusual Glass Transition Breadth and Facile Autonomous Self‐Healing over a Broad Composition Range

Abstract

AbstractStatistical copolymers are commercially important because their properties can be tuned by comonomer selection and composition. Rubbery‐state styrene (S)/n‐butyl acrylate (nBA) copolymers have previously been reported to exhibit facile, autonomous self‐healing over a narrow composition band (47/53 to 53/47 mol%). The need for a narrow composition band is explained by alternating comonomer sequences that accommodate interchain secondary bonding. It is hypothesized that copolymers that achieve interchain secondary bonding without alternating sequences can exhibit facile self‐healing over a broad composition range. 2‐ethylhexyl acrylate (EHA) is identified as yielding sequence‐independent secondary bonding interactions. For these interactions it is tested experimentally by glass transition breadth in rubbery‐state S/EHA copolymers, with S/n‐hexyl acrylate (nHA) and S/nBA copolymers as controls. The n‐alkyl acrylate random copolymers exhibit enhanced glass transition breadths over narrow composition bands that correspond to autonomous self‐healing. In contrast, S/EHA copolymers exhibit much greater glass transition breadths than S/nHA and S/nBA copolymers at all compositions tested as well as self‐healing of damage over a broad composition range with full tensile‐property recovery, often in 3–10 h. Characterization of glass transition breadth may serve as a simple screening tool for identifying copolymers that exhibit broad‐composition‐range, facile, autonomous self‐healing and contribute to polymer resilience and sustainability.