Byoung Sun Min scite author profile

the triazole crosslinked networks were determined by using Gee's theory and Flory-Rhener theory. The mechanical properties of the triazole crosslinked networks were also investigated with different contents of the dipolarophile curing agent, along with the type of dipolarophile curing agent. The networks prepared under the triazole curing system did not show good mechanical properties. However, GAP-based networks prepared under a dual curing system showed excellent mechanical properties with only a small amount of dipolarophile curing agent used. The effects of BPS and BHPB on the mechanical properties of the networks were much more distinguishable in networks prepared under a dual curing system rather than a single curing system.

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Characterization of segmented block Copolyurethane network based on glycidyl azide polymer and polycaprolactone

Min

2007

Macromol. Res.

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Energetic polymeric networks prepared via a solvent- and catalyst-free thermal cycloaddition of azide-bearing polymers with alkynes and hydroxyl-isocyanate addition reactions

et al. 2015

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Polymeric networks were prepared through a 1,3-dipolar cycloaddition of azide-bearing polymers with a variety of compounds having two or three terminal alkynes without solvents and catalysts. Dipolarophiles with an α-carbonyl underwent a very rapid Huisgen reaction within a few minutes to afford networks that were side-linked with triazole moieties. The reactivities of dipolarophiles were estimated by using frontier molecular orbital energies. To avoid the formation of defects in elastically ineffective networks, all polymer chain-ends were linked with urethane moieties, and very small quantities of azides were reacted with the dipolarophiles to link the pendent groups with the triazoles. Because the crosslinking densities of the energetic networks were inversely proportional to the reactivity of the dipolarophiles to the azides, the less reactive alkynes provided better mechanical properties to the networks prepared using the Huisgen cycloaddition reaction compared to the more reactive alkynes. b ; Fax: +82 2 942 0108; Tel: +82 2 940 5583This journal is

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Azide-bearing polymer-based solid composite propellant prepared by a dual curing system consisting of a urethane-forming reaction and a dipolar addition reaction

Min

Kim

Ryoo

et al. 2014

Fuel

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Byoung Sun Min

A Study on the Triazole Crosslinked Polymeric Binder Based on Glycidyl Azide Polymer and Dipolarophile Curing Agents

Characterization of segmented block Copolyurethane network based on glycidyl azide polymer and polycaprolactone

Energetic polymeric networks prepared via a solvent- and catalyst-free thermal cycloaddition of azide-bearing polymers with alkynes and hydroxyl-isocyanate addition reactions

Azide-bearing polymer-based solid composite propellant prepared by a dual curing system consisting of a urethane-forming reaction and a dipolar addition reaction

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