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Multiaxial shape memory effect of thermo-induced shape memory polyurethane under proportional tension-torsion loading

Zhihong Liang, Jian Li, Kaijuan Chen, Dong Yu, Chao Yu, Qianhua Kan

2023Smart Materials and Structures15 citationsDOIOpen Access PDF

Abstract

Abstract Shape memory behavior of thermo-induced shape memory polyurethane (TSMPU) under proportionally multiaxial loading is investigated experimentally. The shape memory effect is discussed under different axial and torsional loading angles. By comparing the equivalent stress-equivalent strain curves under different loading angles, it is found that the difference in thermo-mechanical behavior is mainly reflected in the shape memory effect. The equivalent characteristic quantities describing the shape memory effect are extracted from the experimental results. By analyzing their evolutions in the strain and stress spaces, it is found that the shape memory effect shows obvious anisotropy under different loading angles, i.e. the equivalent recovery rate of TSMPU increases with the increase of the loading angles. These results are helpful to establish a thermo-mechanical constitutive model for describing the shape memory effect under multiaxial loading.

Topics & Concepts

Shape-memory alloyMaterials scienceComposite materialAnisotropyPolyurethaneTorsion (gastropod)Constitutive equationStress (linguistics)Shape-memory polymerTension (geology)Structural engineeringCompression (physics)OpticsFinite element methodPhysicsEngineeringPhilosophySurgeryLinguisticsMedicinePolymer composites and self-healingMarine Sponges and Natural ProductsCalcium Carbonate Crystallization and Inhibition
Multiaxial shape memory effect of thermo-induced shape memory polyurethane under proportional tension-torsion loading | Litcius