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A phase evolution based constitutive model for shape memory polymer and its application in 4D printing

Fangfang Wang, Chao Yuan, Dong Wang, David W. Rosen, Qi Ge

2020Smart Materials and Structures50 citationsDOI

Abstract

Abstract 4D printing is a novel concept and multidiscipline research area which integrates advanced manufacturing, material science and mechanics. As an active material with high stiffness and rapid response speed, shape memory polymer (SMP) is widely used in 4D printing structures. Accordingly, a simple but effective theoretical model becomes highly desirable to better assist the 4D printing design. In this paper, a phenomenological model is developed in which the concept of phase evolution is used to describe the glass transition behavior of SMP. Explicit iterative format has been derived where the stress–strain behaviors of phase generation and phase vanishment are distinguished. The model is further employed to predict the shape memory behavior of pure SMP and active bending behavior of SMP-elastomer bilayer composites. With its inherent conciseness and generality, the model is promising to be applicable in modelling other soft active materials with phase evolution behaviors.

Topics & Concepts

Shape-memory polymerPhenomenological modelMaterials scienceElastomerBendingShape-memory alloyComputer scienceMechanical engineeringConstitutive equationSimple (philosophy)Bending stiffnessPhase (matter)StiffnessStructural engineeringComposite materialEngineeringFinite element methodPhysicsEpistemologyQuantum mechanicsPhilosophyPolymer composites and self-healingAdvanced Materials and MechanicsAdvanced Sensor and Energy Harvesting Materials
A phase evolution based constitutive model for shape memory polymer and its application in 4D printing | Litcius