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Revealing the inner secrets of intumescence: Advanced standard time temperature oven (STT Mufu + )—μ‐computed tomography approach
Author(s) -
Morys Michael,
Illerhaus Bernhard,
Sturm Heinz,
Schartel Bernhard
Publication year - 2017
Publication title -
fire and materials
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.482
H-Index - 58
eISSN - 1099-1018
pISSN - 0308-0501
DOI - 10.1002/fam.2426
Subject(s) - intumescent , reproducibility , muffle furnace , materials science , fire performance , composite material , tomography , fire resistance , coating , mechanical engineering , nuclear engineering , structural engineering , engineering , optics , biochemistry , statistics , catalysis , mathematics , chemistry , physics , calcination
Summary Intumescent coatings have been used for fire protection of steel for decades, but there is still a need for improvement and adaptation. The key parameters of such coatings in a fire scenario are thermal insulation, foaming dynamics, and cohesion. The fire resistance tests, large furnaces applying the standard time temperature (STT) curve, demand coated full‐scale components or intermediate‐scale specimen. The STT Mufu + (standard time temperature muffle furnace + ) approach is presented. It is a recently developed bench‐scale testing method to analyze the performance of intumescent coatings. The STT Mufu + provides vertical testing of specimens with reduced specimen size according to the STT curve. During the experiment, the foaming process is observed with a high‐temperature endoscope. Characteristics of this technique like reproducibility and resolution are presented and discussed. The STT Mufu + test is highly efficient in comparison to common tests because of the reduced sample size. Its potential is extended to a superior research tool by combining it with advanced residue analysis (μ‐computed tomography and scanning electron microscopy) and mechanical testing. The benefits of this combination are demonstrated by a case study on 4 intumescent coatings. The evaluation of all collected data is used to create performance‐based rankings of the tested coatings.