Beyond the standard time-temperature curve: Assessment of intumescent coatings under standard and deviant temperature curves

Nowadays there are intumescent coatings available for diverse applications. There is no established assessment of their protection performance besides the standard time-temperature curve, but natural fire scenarios often play an important role. A reliable straightforward performance-based assessment...

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Bibliographic Details
Published in:Fire safety journal 2020-03, Vol.112, p.102951-15, Article 102951
Main Authors: Morys, Michael, Häßler, Dustin, Krüger, Simone, Schartel, Bernhard, Hothan, Sascha
Format: Article
Language:English
Subjects:
Coating
Coatings
Computed tomography
Heating
Heating curves
Intumescence
Morphology
Residue morphology
Residues
Scanning electron microscopy
Small scale
Steel construction
Temperature
Thermal conductivity
Thermal insulation
Thermal protection
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Summary:Nowadays there are intumescent coatings available for diverse applications. There is no established assessment of their protection performance besides the standard time-temperature curve, but natural fire scenarios often play an important role. A reliable straightforward performance-based assessment is presented. The effective thermal conductivity per thickness is calculated based on intermediate-scale fire tests. The optimum thermal insulation, the time to reach it, and the time until contingent failure of the coating are used for an assessment independent of the heating curve. The procedure was conducted on four different commercially intumescent coatings for steel construction, one solvent-based, one waterborne, one epoxy-based, and a bandage impregnated with a waterborne coating. The performance was studied under four different but similar shaped heating curves with different maximum temperatures (standard time-temperature curve, hydrocarbon curve and two self-designed curves with reduced temperature). The thermal protection performance is crucially affected by the residue morphology. Therefore, a comprehensive morphology analysis, including micro-computed tomography and scanning electron microscopy, was conducted on small-scale residues (7.5 × 7.5 cm2). Two different types of inner structures and the residue surface after different heat exposures were discussed in terms of their influence on thermal protection performance. •Assessing intumescent coatings with respect to natural fires.•Using intermediate and bench-scale investigations of the fire resistance.•Using micro-computed tomography for analysis of the inner morphology of fire residues.
ISSN:0379-7112
1873-7226
DOI:10.1016/j.firesaf.2020.102951