Süreyya Saricilar scite author profile

Süreyya Saricilar

2Publications

90Citation Statements Received

56Citation Statements Given

How they've been cited

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Affiliations

ARC Centre of Excellence for Electromaterials Science, University of Wollongong, UNSW Sydney

Publications

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Effect of First Network Topology on the Toughness of Double Network Hydrogels

et al. 2013

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The fracture toughness of a double network (DN) hydrogel is shown here to be directly proportional to the toughness of the first-formed network. A series of DN gels was prepared in which the cross-link density of the first (tighter) network was controlled by varying the monomer and cross-linker concentrations. The toughness, tensile strength and elastic modulus of the DN gels increased significantly with an increase in the cross-link density of the first network and with identically prepared second networks. Moreover, the toughness of the double network was found to be linearly related to the toughness of the first network with an amplification factor of 150 times. Existing models of DN fracture based on network strand scission are utilized to quantify the relationship between the first network toughness and the DN toughness. ABSTRACTThe fracture toughness of a double network (DN) hydrogel is shown here to be directly proportional to the toughness of the first-formed network. A series of DN gels was prepared in which the crosslink density of the first (tighter) network was controlled by varying the monomer and crosslinker concentrations. The toughness, tensile strength and elastic modulus of the DN gels increased significantly with an increase in the crosslink density of the first network and with 2 identically-prepared second networks. Moreover, the toughness of the double network was found to be linearly related to the toughness of the first network with an amplification factor of ~150 times. Existing models of DN fracture based on network strand scission are utilised to quantify the relationship between the first network toughness and the DN toughness.

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Reversible addition fragmentation chain transfer polymerization of 3-[tris(trimethylsilyloxy) silyl] propyl methacrylate

Saricilar

Knott

Barner‐Kowollik

et al. 2003

Polymer

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