Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies

Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies

The evolution of shrinkage and mass during drying of kaolin and alumina green bodies was characterized. Standard practise uses a position sensor with simultaneous mass measurement. In this work an optical method was developed to follow shrinkage in two orthogonal directions. Green body samples were...

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Main Authors: Siham Oummadi, Benoit Nait-Ali, Arnaud Alzina, Marie-Clotilde Paya, Jean-Marie Gaillard, David S. Smith
Format: Article
Language:English
Published: Elsevier 2020-07-01
Series:Open Ceramics
Subjects:
Drying
Shrinkage
Anisotropy
Online Access:http://www.sciencedirect.com/science/article/pii/S266653952030016X
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spelling doaj-003fce4ca84747959bb2112a7eb732742020-12-30T04:23:55ZengElsevierOpen Ceramics2666-53952020-07-012100016Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodiesSiham Oummadi0Benoit Nait-Ali1Arnaud Alzina2Marie-Clotilde Paya3Jean-Marie Gaillard4David S. Smith5University of Limoges, IRCER, UMR CNRS 7315, 12 Rue Atlantis, F-87068, Limoges, FranceCorresponding author.; University of Limoges, IRCER, UMR CNRS 7315, 12 Rue Atlantis, F-87068, Limoges, FranceUniversity of Limoges, IRCER, UMR CNRS 7315, 12 Rue Atlantis, F-87068, Limoges, FranceUniversity of Limoges, IRCER, UMR CNRS 7315, 12 Rue Atlantis, F-87068, Limoges, FranceUniversity of Limoges, IRCER, UMR CNRS 7315, 12 Rue Atlantis, F-87068, Limoges, FranceUniversity of Limoges, IRCER, UMR CNRS 7315, 12 Rue Atlantis, F-87068, Limoges, FranceThe evolution of shrinkage and mass during drying of kaolin and alumina green bodies was characterized. Standard practise uses a position sensor with simultaneous mass measurement. In this work an optical method was developed to follow shrinkage in two orthogonal directions. Green body samples were made by pressing of ceramic pastes. Results have been compared through the well known Bigot curves which show two distinct stages. First a linear shrinkage with the evaporated water loss is observed. Then in the second stage with further water loss, negligible dimension changes occur. For each material, the overall shrinkage values are identical in the two directions parallel to the pressing axis, but higher in the pressing direction. This difference is related to the shaping method yielding a preferential orientation of grains. Anisotropy in shrinkage is more significant for kaolin with tabular shaped grains compared to the more isometric grains of alumina.http://www.sciencedirect.com/science/article/pii/S266653952030016XDryingShrinkageAnisotropy
collection DOAJ
language English
format Article
sources DOAJ
author Siham Oummadi
Benoit Nait-Ali
Arnaud Alzina
Marie-Clotilde Paya
Jean-Marie Gaillard
David S. Smith
spellingShingle Siham Oummadi
Benoit Nait-Ali
Arnaud Alzina
Marie-Clotilde Paya
Jean-Marie Gaillard
David S. Smith
Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies
Open Ceramics
Drying
Shrinkage
Anisotropy
author_facet Siham Oummadi
Benoit Nait-Ali
Arnaud Alzina
Marie-Clotilde Paya
Jean-Marie Gaillard
David S. Smith
author_sort Siham Oummadi
title Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies
title_short Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies
title_full Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies
title_fullStr Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies
title_full_unstemmed Optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies
title_sort optical method for evaluation of shrinkage in two dimensions during drying of ceramic green bodies
publisher Elsevier
series Open Ceramics
issn 2666-5395
publishDate 2020-07-01
description The evolution of shrinkage and mass during drying of kaolin and alumina green bodies was characterized. Standard practise uses a position sensor with simultaneous mass measurement. In this work an optical method was developed to follow shrinkage in two orthogonal directions. Green body samples were made by pressing of ceramic pastes. Results have been compared through the well known Bigot curves which show two distinct stages. First a linear shrinkage with the evaporated water loss is observed. Then in the second stage with further water loss, negligible dimension changes occur. For each material, the overall shrinkage values are identical in the two directions parallel to the pressing axis, but higher in the pressing direction. This difference is related to the shaping method yielding a preferential orientation of grains. Anisotropy in shrinkage is more significant for kaolin with tabular shaped grains compared to the more isometric grains of alumina.
topic Drying
Shrinkage
Anisotropy
url http://www.sciencedirect.com/science/article/pii/S266653952030016X
work_keys_str_mv AT sihamoummadi opticalmethodforevaluationofshrinkageintwodimensionsduringdryingofceramicgreenbodies
AT benoitnaitali opticalmethodforevaluationofshrinkageintwodimensionsduringdryingofceramicgreenbodies
AT arnaudalzina opticalmethodforevaluationofshrinkageintwodimensionsduringdryingofceramicgreenbodies
AT marieclotildepaya opticalmethodforevaluationofshrinkageintwodimensionsduringdryingofceramicgreenbodies
AT jeanmariegaillard opticalmethodforevaluationofshrinkageintwodimensionsduringdryingofceramicgreenbodies
AT davidssmith opticalmethodforevaluationofshrinkageintwodimensionsduringdryingofceramicgreenbodies
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