Nonlinear Rheology of Telechelic Ionomers Based on Sodium Sulfonate and Carboxylate

Abstract: In this study, we examined the structure, linear viscoelastic (LVE) properties, and nonlinear shear and elongational properties of unentangled telechelic ionomers based on either sodium carboxylate or sodium sulfonate groups, coded as M n-COONa and M n-SO3Na, with the number-average molecular weight M n varying from 5 to 16 kg mol–1. A combination of X-ray scattering and LVE data revealed that both types of ionomers form networks sustained by “superbridges” transiently cross-linked by salt aggregates. The aggr… Show more

“…The physically reversible networks include many types depending on the species of physical interactions, including van der Waals interaction, − π–π stacking interaction, , hydrogen-bonding interaction, − ionic interaction, ,,− metal–ligand interaction, − and so on, whose energy levels are compared in Figure . In particular, the interaction energies of hydrogen bonds and ionic interactions are comparable to or 1 order higher than the thermal energy k B T in a temperature range from 20 to 300 °C (a usual temperature range where the polymer materials are applied or processed), with k B being the Boltzmann constant and T being the absolute temperature, enabling these interactions to be suitable for the formation of physically reversible networks.…”

Advances and New Opportunities in the Rheology of Physically and Chemically Reversible Polymers

“…The physically reversible networks include many types depending on the species of physical interactions, including van der Waals interaction, − π–π stacking interaction, , hydrogen-bonding interaction, − ionic interaction, ,,− metal–ligand interaction, − and so on, whose energy levels are compared in Figure . In particular, the interaction energies of hydrogen bonds and ionic interactions are comparable to or 1 order higher than the thermal energy k B T in a temperature range from 20 to 300 °C (a usual temperature range where the polymer materials are applied or processed), with k B being the Boltzmann constant and T being the absolute temperature, enabling these interactions to be suitable for the formation of physically reversible networks.…”

Advances and New Opportunities in the Rheology of Physically and Chemically Reversible Polymers

“…S11†). In the hypothesis, each coordination structure served as an independent network crosslink, 60 ρRT / M n . All the G pl were smaller than the corresponding ρRT / M n , suggesting that not all coordination bonds served as effective and independent crosslinks in the system.…”

A reconfigurable crosslinking systemviaan asymmetric metal–ligand coordination strategy

“…We take the No. 3 nanocomposite beam as an example to study the nonlinear dynamic characteristics of the beam under parametric excitation [11]. Therefore, we can write the governing equation (4) in the following form:…”

“…We substitute equation ( 12) into equation (11) and separate the real and imaginary parts. Simplify to get the average equation in the polar coordinate form under the first approximation as…”

Nonlinear Differential Equation in Anti-aging Test of Polymer Nanomaterials