Infrared expandometry: A novel methodology to monitor the expansion kinetics of cellular materials produced with exothermic foaming mechanisms

This paper presents a new methodology called “Infrared Expandometry” appropriate to characterize simultaneously the expansion kinetics (height vs. time and volume vs. time) and the temperature evolution of cellular materials by using the infrared radiation emitted when a body reaches a certain tempe...

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Bibliographic Details
Published in:Polymer testing 2018-04, Vol.66, p.383-393
Main Authors: Santiago-Calvo, M., Pérez-Tamarit, S., Tirado-Mediavilla, J., Villafañe, F., Rodríguez-Pérez, M.A.
Format: Article
Language:English
Subjects:
Evolution
Foamability
Foaming
Image acquisition
Image analysis
Infrared imaging
Infrared imaging systems
Infrared radiation
Kinetics
Methodology
Polymers
Polyurethane
Polyurethane foam
Polyurethane foams
Reaction kinetics
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Summary:This paper presents a new methodology called “Infrared Expandometry” appropriate to characterize simultaneously the expansion kinetics (height vs. time and volume vs. time) and the temperature evolution of cellular materials by using the infrared radiation emitted when a body reaches a certain temperature. Therefore, a mandatory feature of the foamed samples to be studied by this methodology is the internal generation of heat during the growing step, i.e. the foaming process must be exothermic. The evolution of the surface temperature vs. time is determined by calibrating the intensity of the acquired images. From this information and by using image analysis, the kinetics of foaming is characterized. The presented technique provides very valuable information during the foaming process, such as height, volume, temperature evolution and temperature homogeneity, being a fast, clean and simple characterization technique. In order to demonstrate the use of this new technique to monitor the foaming kinetics of cellular materials, the formation of a polyurethane foam system is herein described. •“Infrared Expandometry” monitors the expansion kinetics of cellular materials obtained by exothermic blowing processes.•The expansion process is followed without any restrictions about the sample size.•The evolution of important parameters, such as height, volume, surface temperature and temperature homogeneity is obtained.•The surface temperature is measured without interfering with the expansion process.
ISSN:0142-9418
1873-2348
DOI:10.1016/j.polymertesting.2018.02.004