Novel Water-Based Energy-Curable PU Dispersions

Extend Sustainable Product Offering for Wood Investing in a sustainable future and building a coating resins portfolio on green core technologies, including waterborne, energy-curable and powder product ranges is a priority for our company. In order to emphasize the sustainable attributes of this fa...

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Veröffentlicht in:Paint & Coatings Industry 2019-02, Vol.35 (2), p.22-25
Hauptverfasser: Tielemans, Michel, Vanmeulder, Guido, Fusco, Michela
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container_end_page 25
container_issue 2
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container_title Paint & Coatings Industry
container_volume 35
creator Tielemans, Michel
Vanmeulder, Guido
Fusco, Michela
description Extend Sustainable Product Offering for Wood Investing in a sustainable future and building a coating resins portfolio on green core technologies, including waterborne, energy-curable and powder product ranges is a priority for our company. In order to emphasize the sustainable attributes of this fast-growing product range, we created a straightforward model inspired by Life Cycle Analysis, looking at three fundamental dimensions: the composition, the performance-in-use, and the lifetime and disposal (Figure 1). The physically drying nature of many products (tack-free before cure) constitutes a distinct advantage for easy manipulation of the coated panels, surface embossing or field-applied operations. [...]some products can be made water-resoluble before cure, which allows easy cleaning of dried polymer without any solvent during the application. [...]they encompass the high productivity of traditional radiation curing compositions by combining easy water evaporation and instantaneous ultraviolet or electron beam curing.
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source EBSCOhost Business Source Complete; ProQuest Central UK/Ireland
subjects Composition
Curing
Electron beams
Embossing
Energy
Flexibility
Innovations
Life cycle analysis
Life cycle engineering
Polymer blends
Polyurethane resins
Porous materials
Proprietary
Radiation
Radiation curing
Raw materials
Viscosity
VOCs
Volatile organic compounds
title Novel Water-Based Energy-Curable PU Dispersions
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