Thermogravimetry and insitu mass spectrometry at high temperatures compared to thermochemical modelling – The weight loss during selective decarburisation at 800°C

Thermogravimetry and insitu mass spectrometry at high temperatures compared to thermochemical modelling – The weight loss during selective decarburisation at 800°C

•Insitu mass spectrometry near the sample surface for high temperature experiments.•Minimal interference allows simultaneous recording of thermogravimetry.•Numerical calculations for decarburisation (local equilibria) will be presented.•Differences between experiment and theoretical results will be...

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Bibliographic Details
Published in:Corrosion science Vol. 78; pp. 188 - 192
Main Authors: Auinger, M., Vogel, A., Praig, V.G., Danninger, H., Rohwerder, M.
Format: Journal Article
Language:English
Published: Kidlington Elsevier Ltd 01-01-2014
Elsevier
Subjects:
A. Steel
Applied sciences
B. Modelling studies
B. Weight loss
C. High temperature corrosion
C. Selective oxidation
Corrosion
Corrosion environments
Exact sciences and technology
Metals. Metallurgy
Thermogravimetry and insitu mass spectrometry
C. High temperature corrosion
B. Modelling studies
C. Selective oxidation
A. Steel
B. Weight loss
Thermogravimetry and insitu mass spectrometry
Temperature
Mass loss
High temperature
Modeling
Oxidation
Mass spectrometry
High temperature corrosion
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Description
Summary:•Insitu mass spectrometry near the sample surface for high temperature experiments.•Minimal interference allows simultaneous recording of thermogravimetry.•Numerical calculations for decarburisation (local equilibria) will be presented.•Differences between experiment and theoretical results will be discussed.•The work is based on the example of pearlite decarburisation for good comparison. The insitu mass spectrometry detection of volatile species during high temperature corrosion processes, exemplified by decarburisation of plain carbon steel, will be presented. Without influencing the thermobalance signal, changes of the gas composition can be measured by introducing a small quartz capillary into the reaction chamber in close proximity to the sample surface. Experiments with the eutectoid composition Fe, 0.8wt% C have been chosen intentionally as this alloy represents one of the most intensely studied compositions in steel research. This allows good verification with commonly accepted knowledge. Furthermore, comparison between experimental observations and theoretical simulations will be given and critically discussed.
ISSN:0010-938X
1879-0496
DOI:10.1016/j.corsci.2013.09.015