Title : ( Cooling Curve Analysis as an Alternative to Dilatometry in Continuous Cooling Transformations )
Authors: John W. Gibbs , Christian Schlacher , Ata Kamyabi-Gol , Peter Mayr , Patricio F. Mendez ,Abstract
Dilatometry and cooling curve analysis (CCA) are two methods of determining the evolution of a phase transformation with temperature. The two methods are similar conceptual in that they take an indirect measure of the transformation and extract phase fraction information from it; however, the differences between the two methods typically makes one method better suited to analyzing a given transformation. However, without a quantitative comparison between the two methods, it is difficult to use them interchangeably. We address this by presenting a quantitative comparison of CCA and dilatometry for a martensitic transformation in a 9Cr3W3CoVNb steel. The resulting phase fraction data matches very well, within 5 K (5 °C) for any given phase fraction. This paper also extends to the quantitative methodology of calorimetry to the analysis of dilatometric data, with results comparable to ASTM A1033-10, but with expected higher accuracy by accounting by variable thermal expansion coefficients.
Keywords
, Cooling curve analysis, Dilatometry,@article{paperid:1055853,
author = {John W. Gibbs and Christian Schlacher and Kamyabi-Gol, Ata and Peter Mayr and Patricio F. Mendez},
title = {Cooling Curve Analysis as an Alternative to Dilatometry in Continuous Cooling Transformations},
journal = {Metallurgical and Materials Transactions A},
year = {2015},
volume = {46},
number = {1},
month = {January},
issn = {1073-5623},
pages = {148--155},
numpages = {7},
keywords = {Cooling curve analysis; Dilatometry;},
}
%0 Journal Article
%T Cooling Curve Analysis as an Alternative to Dilatometry in Continuous Cooling Transformations
%A John W. Gibbs
%A Christian Schlacher
%A Kamyabi-Gol, Ata
%A Peter Mayr
%A Patricio F. Mendez
%J Metallurgical and Materials Transactions A
%@ 1073-5623
%D 2015