Influence of functional group content in hydroxyl-functionalized urethane methacrylate oligomers on the crosslinking features of clearcoats

Influence of functional group content in hydroxyl-functionalized urethane methacrylate oligomers on the crosslinking features of clearcoats

Crosslinking characteristics and surface mechanical properties of radical and urethane dual-curable clearcoats were investigated by changing quantities of C=C bonds and OH groups in hydroxyl-functionalized urethane methacrylate oligomer (HFUMO) resins. The isocyanate blocked with a thermal radical i...

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Bibliographic Details
Published in:JCT research Vol. 18; no. 1; pp. 229 - 237
Main Authors: June, Young-Gun, Jung, Kevin Injoe, Lee, Dong Geun, Jeong, Subin, Lee, Tae-Hee, Park, Young Il, Noh, Seung Man, Jung, Hyun Wook
Format: Journal Article
Language:English
Published: New York Springer US 2021
Springer Nature B.V
Subjects:
Chemistry and Materials Science
Corrosion and Coatings
Crosslinking
Curing
Dynamic mechanical analysis
Fourier transforms
Functional groups
Industrial Chemistry/Chemical Engineering
Isocyanates
Low temperature
Materials Science
Mechanical properties
Nanoindentation
Oligomers
Pendulums
Polymer Sciences
Resins
Rigid structures
Surface resistance
Surfaces and Interfaces
Temperature dependence
Thin Films
Tribology
HFUMO binder
Crosslinking dynamics
Low-temperature curing
Clearcoat
Surface resistance
Dual-curable crosslinker
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Summary:Crosslinking characteristics and surface mechanical properties of radical and urethane dual-curable clearcoats were investigated by changing quantities of C=C bonds and OH groups in hydroxyl-functionalized urethane methacrylate oligomer (HFUMO) resins. The isocyanate blocked with a thermal radical initiator (BL-Tri-cHD) was utilized as a hybrid dual-curable thermal crosslinker to expedite the crosslinking of the main resin. The dual reactions between various HFUMO resins and BL-Tri-cHD were efficiently monitored via Fourier transform infrared spectroscopy to measure the peaks before and after curing. The influence of each functional group (C=C bond or OH group) in HFUMO on the initiation and development of crosslinking in dual-curable clearcoats was investigated by real-time measurements using rotational rheometer and rigid body pendulum tester. Temperature-dependent mechanical properties of cured films were confirmed through dynamic mechanical analysis. The surface mechanical properties of cured clearcoat films were also evaluated via the nanoindentation and nanoscratch tests, demonstrating the variation in surface resistance with respect to the C=C bond content and the OH value. Thus, the low-temperature curing and desired mechanical properties of clearcoats can be optimized by adjusting the content of the functional groups in a HFUMO and using a dual-curable crosslinker to simultaneously generate both radical and urethane crosslinking reactions.
ISSN:1547-0091
1935-3804
2168-8028
DOI:10.1007/s11998-020-00398-1