Time-Resolved Extensional Rheo-NMR Spectroscopy for Investigating Polymer Nanocomposites under Deformation

Abstract: Understanding the microstructure change of polymer nanocomposites (PNCs) under elongation deformation at the molecular level is the key to coupling structure−property relationships of PNCs. In this study, we developed our recently proposed in situ extensional rheology NMR device, Rheo-spin NMR, which can simultaneously obtain both the macroscopic stress−strain curves and the microscopic molecular information with the total sample weight of ∼6 mg. This enables us to conduct a detailed investigation of the evolu… Show more

“…Under small-amplitude deformation, it was found that interfacial dynamics is invariant. However, orientation of the network chains was enhanced under deformation . The combination of in situ NMR measurement and mechanical tests indicates that the reduced chain orientation is responsible for stress softening during cyclic deformation, which further provides direct evidence for the nonlinear rheological properties at the molecular level.…”

“…However, orientation of the network chains was enhanced under deformation. 84 The combination of in situ NMR measurement and mechanical tests indicates that the reduced chain orientation is responsible for stress softening during cyclic deformation, which further provides direct evidence for the nonlinear rheological properties at the molecular level. It is anticipated that Rheo-NMR will further contribute to understanding the impacts of fillers on the mechanical property of polymer composite under active deformation, especially at a large-amplitude deformation region.…”

“…The in situ tensile experiments were conducted to investigate the chain orientation rearrangement in local constrained networks. Reproduced with permission from ref .…”

“…81,82 Very recently, Chen et al for the first time incorporated an in situ stretching module into a low-field NMR instrument and simultaneously obtained both macroscopic stress−strain curve and the microscopic structure and dynamics of polymer nanocomposite under active deformation, as shown in Figure 3. 83,84 The silicafilled silicone rubber ring was subjected to cyclic loading tests with a maximum stretching ratio of 1.6. The 1 H spin−spin relaxation time, T 2 , was used to in situ determine fractions of the interface and polymer matrix during stretching and the chain orientation under deformation.…”

“…The 1 H spin−spin relaxation time, T 2 , was used to in situ determine fractions of the interface and polymer matrix during stretching and the chain orientation under deformation. 84 Under small-amplitude deformation, it was found that interfacial dynamics is invariant. However, orientation of the network chains was enhanced under deformation.…”

Elucidations of Structure and Molecular Dynamics of Complex Polymers by State-of-the-Art Solid-State NMR Spectroscopy

“…Under small-amplitude deformation, it was found that interfacial dynamics is invariant. However, orientation of the network chains was enhanced under deformation . The combination of in situ NMR measurement and mechanical tests indicates that the reduced chain orientation is responsible for stress softening during cyclic deformation, which further provides direct evidence for the nonlinear rheological properties at the molecular level.…”

“…However, orientation of the network chains was enhanced under deformation. 84 The combination of in situ NMR measurement and mechanical tests indicates that the reduced chain orientation is responsible for stress softening during cyclic deformation, which further provides direct evidence for the nonlinear rheological properties at the molecular level. It is anticipated that Rheo-NMR will further contribute to understanding the impacts of fillers on the mechanical property of polymer composite under active deformation, especially at a large-amplitude deformation region.…”

“…The in situ tensile experiments were conducted to investigate the chain orientation rearrangement in local constrained networks. Reproduced with permission from ref .…”

“…81,82 Very recently, Chen et al for the first time incorporated an in situ stretching module into a low-field NMR instrument and simultaneously obtained both macroscopic stress−strain curve and the microscopic structure and dynamics of polymer nanocomposite under active deformation, as shown in Figure 3. 83,84 The silicafilled silicone rubber ring was subjected to cyclic loading tests with a maximum stretching ratio of 1.6. The 1 H spin−spin relaxation time, T 2 , was used to in situ determine fractions of the interface and polymer matrix during stretching and the chain orientation under deformation.…”

“…The 1 H spin−spin relaxation time, T 2 , was used to in situ determine fractions of the interface and polymer matrix during stretching and the chain orientation under deformation. 84 Under small-amplitude deformation, it was found that interfacial dynamics is invariant. However, orientation of the network chains was enhanced under deformation.…”

Elucidations of Structure and Molecular Dynamics of Complex Polymers by State-of-the-Art Solid-State NMR Spectroscopy

Conformational Disorder Within the Crystalline Region of Silica-Filled Polydimethylsiloxane: A Solid-State NMR Study

Rheo-NMR: A versatile hyphenated technique for capturing molecular dynamics and structure under flow