Illustrating the Molecular Origin of Mechanical Stress in Ductile Deformation of Polymer Glasses

XX Li and JN Liu and ZN Liu and M Tsige and SQ Wang, PHYSICAL REVIEW LETTERS, 120, 077801 (2018).

DOI: 10.1103/PhysRevLett.120.077801

New experiments show that tensile stress vanishes shortly after preyield deformation of polymer glasses while tensile stress after postyield deformation stays high and relaxes on much longer time scales, thus hinting at a specific molecular origin of stress in ductile cold drawing: chain tension rather than intersegmental interactions. Molecular dynamics simulation based on a coarse-grained model for polystyrene confirms the conclusion that the chain network plays an essential role, causing the glassy state to yield and to respond with a high level of intrachain retractive stress. This identification sheds light on the future development regarding an improved theoretical account for molecular mechanics of polymer glasses and the molecular design of stronger polymeric materials to enhance their mechanical performance.

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