Full Stress Tensor Determination during Phase Transformation of a Metal Matrix Composite by in situ High Energy X-Ray Diffraction and Micromechanical Simulations

Full Stress Tensor Determination during Phase Transformation of a Metal Matrix Composite by in situ High Energy X-Ray Diffraction and Micromechanical Simulations

G. Geandier, L. Vautrot, B. Denand, M. Dehmas, E. Aeby-Gautiera, J. Teixeira, S. Denisa

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Abstract. In situ high energy X-ray diffraction using a synchrotron source performed on a steel metal matrix composite reinforced by TiC allows following the evolutions during cooling of internal stresses thanks to the development of a new original experimental device (a transportable radiation furnace with a controlled rotation of the specimen). Results from experiments as well as from finite element micromechanical simulations allow to understand the stress genesis in the composite.

Keywords
Metal Matrix Composite, in situ X-Ray Diffraction, Stresses, Phase Transformation, Microstructure

Published online 12/22/2016, 6 pages
Copyright © 2016 by the author(s)
Published under license by Materials Research Forum LLC., Millersville PA, USA

Citation: G. Geandier, L. Vautrot, B. Denand, M. Dehmas, E. Aeby-Gautiera, J. Teixeira, S. Denisa, ‘Full Stress Tensor Determination during Phase Transformation of a Metal Matrix Composite by in situ High Energy X-Ray Diffraction and Micromechanical Simulations’, Materials Research Proceedings, Vol. 2, pp 479-484, 2017

DOI: http://dx.doi.org/10.21741/9781945291173-81

The article was published as article 81 of the book Residual Stresses 2016

Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI.

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