Litcius/Paper detail

Strain Softening of Bimodal Isoprene Rubber Vulcanizates

Fengyi Hou, Zhijie Xia, Yihu Song, Wei Chen, Qiang Zheng

2021Macromolecular Materials and Engineering20 citationsDOI

Abstract

Abstract Isoprene rubber (IR) vulcanizates soften upon large‐amplitude oscillational shear and large‐strain cyclic tensile deformation. The mechanisms of these two strain softening behaviors remain unclarified and methods for reducing the accompanied mechanical dissipations are not well established. Herein IR/liquid isoprene rubber bimodal blends are cured into vulcanizates with similar cross‐linking densities. The results indicate that, in comparison with the pure IR network, the bimodal networks demonstrate lowered loss modulus and loss tangent at low strain amplitudes during oscillational shear and reduced loading−unloading dissipation energy at large strains during cyclic tensile deformation. The latter is ascribed to the weakened strain‐induced crystallization (SIC) as disclosed by in situ wide angle X‐ray diffraction. To the best of the current knowledge, the depression of SIC and thus dissipation energy in cyclic deformation is seldom reported for rubber materials. This work provides a new perspective for preparing rubber materials with balanced deformation resistance and mechanical hysteresis.

Topics & Concepts

IsopreneMaterials scienceSofteningNatural rubberComposite materialStrain (injury)VulcanizationNeoprenePolymer scienceCopolymerPolymerMedicineInternal medicinePolymer Nanocomposites and PropertiesPolymer crystallization and propertiesRheology and Fluid Dynamics Studies