Abstract
AbstractHigh‐performance materials for 3D printing are increasingly desired to meet more and more requirements from various fields including aerospace and high‐tech equipment. In this study, 3D printing of isocyanate ester thermosets with high performances, such as excellent mechanical properties and thermal resistance, is realized with a facile method. A precursor of acrylate isocyanate ester with good photocuring capability is first synthesized with the reaction of tolylene‐2,4‐diisocyanate and hydroxypropyl acrylate. Then, mixed with diluent NeoRad U‐6282 and photoinitiator Irgacure 819, it forms ultraviolet curable resins for 3D printing. The digital light processing 3D printing of the resins results in high‐precision 3D structures, which finally turn out high‐performance thermoset materials after the cross‐linking of isocyanate groups at elevated temperature. 3D printing of isocyanate ester thermosets with high printing accuracy, excellent mechanical properties, and good heat resistance will expand the applications of 3D printing by meeting the high demands from many industries on both mechanical and thermal performance.
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