Moisture expansion and mass gain in fired clay ceramics: A two-stage (time)1/4 process

S. D. Savage; M. A. Wilson; M. A. Carter; W. D. Hoff; C. Hall; B. McKay

doi:10.1088/0022-3727/41/5/055402

Moisture expansion and mass gain in fired clay ceramics: A two-stage (time)1/4 process

S. D. Savage, M. A. Wilson, M. A. Carter, W. D. Hoff, C. Hall, B. McKay

Civil Engineering and Management

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Abstract

We report the first measurements of mass gain and expansive strain in clay ceramics immediately following firing. The results show that both mass gain and expansive strain follow a well defined two-stage process, each stage of which is linear with (time)1/4, with a transition from the first to the second stage commencing at t ∼ 1.5 h. The first stage mass gain and strain rates are ∼3.5 times greater than the second stage rates. The strain is found to show the same linear relationship with mass throughout both stages providing evidence that the underlying physical process is the same in each stage. The early time measurements are unique in providing experimental evidence for t1/4 kinetics for both strain and mass gain over times ranging from minutes to days and are consistent with earlier strain data showing t 1/4 kinetics over times ranging from days to centuries. © 2008 IOP Publishing Ltd.

Original language	English
Article number	055402
Journal	Journal of Physics D: Applied Physics
Volume	41
Issue number	5
DOIs	https://doi.org/10.1088/0022-3727/41/5/055402
Publication status	Published - 7 Mar 2008

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title = "Moisture expansion and mass gain in fired clay ceramics: A two-stage (time)1/4 process",

abstract = "We report the first measurements of mass gain and expansive strain in clay ceramics immediately following firing. The results show that both mass gain and expansive strain follow a well defined two-stage process, each stage of which is linear with (time)1/4, with a transition from the first to the second stage commencing at t ∼ 1.5 h. The first stage mass gain and strain rates are ∼3.5 times greater than the second stage rates. The strain is found to show the same linear relationship with mass throughout both stages providing evidence that the underlying physical process is the same in each stage. The early time measurements are unique in providing experimental evidence for t1/4 kinetics for both strain and mass gain over times ranging from minutes to days and are consistent with earlier strain data showing t 1/4 kinetics over times ranging from days to centuries. {\textcopyright} 2008 IOP Publishing Ltd.",

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T1 - Moisture expansion and mass gain in fired clay ceramics: A two-stage (time)1/4 process

AU - Savage, S. D.

AU - Wilson, M. A.

AU - Carter, M. A.

AU - Hoff, W. D.

AU - Hall, C.

AU - McKay, B.

PY - 2008/3/7

Y1 - 2008/3/7

N2 - We report the first measurements of mass gain and expansive strain in clay ceramics immediately following firing. The results show that both mass gain and expansive strain follow a well defined two-stage process, each stage of which is linear with (time)1/4, with a transition from the first to the second stage commencing at t ∼ 1.5 h. The first stage mass gain and strain rates are ∼3.5 times greater than the second stage rates. The strain is found to show the same linear relationship with mass throughout both stages providing evidence that the underlying physical process is the same in each stage. The early time measurements are unique in providing experimental evidence for t1/4 kinetics for both strain and mass gain over times ranging from minutes to days and are consistent with earlier strain data showing t 1/4 kinetics over times ranging from days to centuries. © 2008 IOP Publishing Ltd.

AB - We report the first measurements of mass gain and expansive strain in clay ceramics immediately following firing. The results show that both mass gain and expansive strain follow a well defined two-stage process, each stage of which is linear with (time)1/4, with a transition from the first to the second stage commencing at t ∼ 1.5 h. The first stage mass gain and strain rates are ∼3.5 times greater than the second stage rates. The strain is found to show the same linear relationship with mass throughout both stages providing evidence that the underlying physical process is the same in each stage. The early time measurements are unique in providing experimental evidence for t1/4 kinetics for both strain and mass gain over times ranging from minutes to days and are consistent with earlier strain data showing t 1/4 kinetics over times ranging from days to centuries. © 2008 IOP Publishing Ltd.

U2 - 10.1088/0022-3727/41/5/055402

DO - 10.1088/0022-3727/41/5/055402

M3 - Article

SN - 0022-3727

VL - 41

JO - Journal of Physics D: Applied Physics

JF - Journal of Physics D: Applied Physics

IS - 5

M1 - 055402

ER -

Moisture expansion and mass gain in fired clay ceramics: A two-stage (time)1/4 process

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