ABSTRACT Parametric analyses of the strain-stress in the drying process are performed to study the influence of the intermittent drying on the behaviors of drying-induced strain-stress and deformation as well as the drying characteristic. The transient three-dimensional problem of strain-stress and heat and moisture transfer in a slab is solved simultaneously by the finite element method. The dimensionless parameters are introduced to generalize the problem in the conservation equations of heat and moisture transfer. The intermittent drying is modeled by applying periodically smaller and larger Biot numbers to the boundary conditions. The maximum tensile and compressive stresses fluctuate, and fall remarkably during the smaller Biot number period when a slab is heated intermittently. The peak stress of the fluctuation exceeds beyond the case in the continuous healing where the overall drying rate is almost equivalent to that in the intermittent beating, but the reduction of the stresses takes place rapidl...
[1]
Satoshi Taniguchi,et al.
A numerical study of transient deformation and stress behavior of a clay slab during drying
,
1997
.
[2]
Masanobu Hasatani,et al.
Deformation Behavior of Ceramic Slabs by Nonuniform Drying
,
1995
.
[3]
Masanobu Hasatani,et al.
- VISCOELASTIC STRAIN-STRESS AND HEAT/MOISTURE TRANSFER -
,
1992
.
[4]
S. Ohtani,et al.
Local moisture content and stress distributions within clay during drying shrinkage.
,
1988
.
[5]
M. Funaki,et al.
On the drying mechanism of shrinkage material.
,
1987
.