A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking

Synchrotron radiation - energy dispersive diffraction has been used as a method for in-situ studies on the hydration of cements. The rapid data capture of the technique permits a time-resolved analysis of hydrating cement species under realistic (chosen) conditions. We report on a study of the early...

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Main Authors: Muhamad, M. N., Barnes, P., Fentiman, C. H., Hausermann, D., Pollmann, H., Rashid, S.
Format: Article
Published: Elsevier Science 1993
Subjects:
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author Muhamad, M. N.
Barnes, P.
Fentiman, C. H.
Hausermann, D.
Pollmann, H.
Rashid, S.
author_facet Muhamad, M. N.
Barnes, P.
Fentiman, C. H.
Hausermann, D.
Pollmann, H.
Rashid, S.
author_sort Muhamad, M. N.
collection ePrints
description Synchrotron radiation - energy dispersive diffraction has been used as a method for in-situ studies on the hydration of cements. The rapid data capture of the technique permits a time-resolved analysis of hydrating cement species under realistic (chosen) conditions. We report on a study of the early hydration of minepack mixtures forming ettringite: the growth can be perceived over steps as small as 20 seconds, as also the shifts in diffraction peak positions which are interpreted in terms of a time-dependent composition of the ettringite phase
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spelling utm.eprints-67272017-10-22T04:07:21Z http://eprints.utm.my/6727/ A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking Muhamad, M. N. Barnes, P. Fentiman, C. H. Hausermann, D. Pollmann, H. Rashid, S. QD Chemistry TA Engineering (General). Civil engineering (General) QC Physics Synchrotron radiation - energy dispersive diffraction has been used as a method for in-situ studies on the hydration of cements. The rapid data capture of the technique permits a time-resolved analysis of hydrating cement species under realistic (chosen) conditions. We report on a study of the early hydration of minepack mixtures forming ettringite: the growth can be perceived over steps as small as 20 seconds, as also the shifts in diffraction peak positions which are interpreted in terms of a time-dependent composition of the ettringite phase Elsevier Science 1993 Article PeerReviewed Muhamad, M. N. and Barnes, P. and Fentiman, C. H. and Hausermann, D. and Pollmann, H. and Rashid, S. (1993) A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking. Cement and concrete research , 23 . pp. 267-272. ISSN 0008-8846 http://doi.dx.org/10.1016/0008-8846(93)90091-M 10.1080/01411599208203475
spellingShingle QD Chemistry
TA Engineering (General). Civil engineering (General)
QC Physics
Muhamad, M. N.
Barnes, P.
Fentiman, C. H.
Hausermann, D.
Pollmann, H.
Rashid, S.
A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking
title A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking
title_full A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking
title_fullStr A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking
title_full_unstemmed A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking
title_short A time-resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking
title_sort time resolved synchrotron energy dispersive diffraction study of the dynamic aspects of the synthesis of ettringite during minepacking
topic QD Chemistry
TA Engineering (General). Civil engineering (General)
QC Physics
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