Deformation analyses for a rubber-covered roil and a diminutive V-shaped gr
oove carved on the roll are performed in order to predict the coating weigh
t on a strip in squeeze roll coating processes.
The distribution of contact force on the roll is estimated from the deforma
tion analysis on the base of an influence coefficient method, taking into a
ccount the deflection of the roll axis and the surface indentations of the
inner steel sleeve and the rubber. The surface indentation of the rubber is
derived from an elastic solution in a semi-infinite body, i. e., the diffe
rence of displacement between the surface and a referential point in the se
mi-infinite rubber. The position of the reference point in the rubber is de
termined from the value multiplied by the rubber thickness of the roll by a
compensation coefficient depending on the load acting on the surface.
The relation between the deformation of a groove and the load acting on the
groove is analyzed by the finite element method as the elastic contact and
large deformation problems under the plane strain condition. The coating w
eight is predicted on the basis of the deformed groove.
An experiment is conducted to verify the accuracy of our prediction model o
f coating weight, and the relations between the load and the approach of th
e roll centers, the contact width of the rolls, and the coating weight are
examined. The experimental results are in good agreement with the analytica
l results, and our prediction model is confirmed to be reasonable.