Publication | Closed Access
Small-Angle Neutron Scattering Investigation of Topological Constraints and Tube Deformation in Networks
67
Citations
9
References
1995
Year
EngineeringMultiscale MechanicsNetwork AnalysisContinuum MechanicSoft MatterScale-free NetworkSmall-angle Neutron ScatteringTopological ConstraintsElasticity (Physics)MechanicsRheologyNanomechanicsBiophysicsMicroscopic DeformationPhysicsSolid MechanicsNeutron TransportTube DeformationNetwork TheoryNetwork ScienceNatural SciencesApplied PhysicsContinuum ModelingStructural TopologyNeutron ScatteringMechanics Of MaterialsNetwork TopologyMultiscale Modeling
The effect of topological constraints on the microscopic deformation of network chains in a statistically cross-linked rubber under uniaxial deformation is addressed by small-angle neutron scattering (SANS) on labeled paths in a network. The observed SANS patterns exhibit a pronounced transition from elliptical to lozengic shapes. Within a tube approach for the constraining potential the scattering function is calculated in the 2D detector plane. Excellent agreement between the statistical mechanical model and the experimental results is obtained.
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