date: 2020-07-03T06:14:20Z
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pdf:docinfo:title: Influence of Network Topology on the Viscoelastic Properties of Dynamically Crosslinked Hydrogels
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dc:title: Influence of Network Topology on the Viscoelastic Properties of Dynamically Crosslinked Hydrogels
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cp:subject: Biological materials combine stress relaxation and self-healing with non-linear stress-strain responses.
pdf:docinfo:subject: Biological materials combine stress relaxation and self-healing with non-linear stress-strain responses.
pdf:docinfo:creator: Alberto S. de Le?on
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dc:description: Biological materials combine stress relaxation and self-healing with non-linear stress-strain responses.
Keywords: hydrogel, rheology, coiled coil, polyisocyanopeptide, polyethylene glycol, relaxation time, network topology, multivalency
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dc:creator: Roel Hammink and Kerstin G. Blank
description: Biological materials combine stress relaxation and self-healing with non-linear stress-strain responses.
dcterms:created: 2020-06-30T05:05:00Z
Last-Modified: 2020-07-03T06:14:20Z
dcterms:modified: 2020-07-03T06:14:20Z
title: Influence of Network Topology on the Viscoelastic Properties of Dynamically Crosslinked Hydrogels
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creator: Roel Hammink and Kerstin G. Blank
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dc:subject: hydrogel, rheology, coiled coil, polyisocyanopeptide, polyethylene glycol, relaxation time, network topology, multivalency
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