Method for coating a running web using a plurality of coating liquids
First Claim
1. A coating method in which a web which continuously runs is relatively pressed against an edge face of a coating head and a plurality of coating liquids are discharged from a plurality of slits formed in the edge face in a direction of width of said web so that layers of the coating liquids are formed on the web, wherein:
- a capillary number Ca which is calculated by an equation Ca=Uμ
/σ
satisfies an inequality 0.1<
Ca<
4, where U (m/s) is a running speed of said web, μ
(Pa·
s) is an average high shear viscosity of said coating liquids, and σ
(N/m) is a surface tension of the coating liquid for a top layer of said layers wherein the thickness of the top layer is 2 microns or less in the wet state.
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Accused Products
Abstract
In a case to coat a web by using coating heads which have plural slits, the coating method coats the web by adjusting a running speed, an average high shear viscosity, and a surface tension of the coating liquid of the top layer so that the capillary number Ca, which is calculated by an equation Ca=Uμ/σ, satisfies an inequality 0.1<Ca<4, where U (m/s) is a running speed of the web, μ (Pa·s) is an average high shear viscosity of the coating liquids, and σ (N/m) is a surface tension of the coating liquid for the top layer.
12 Citations
6 Claims
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1. A coating method in which a web which continuously runs is relatively pressed against an edge face of a coating head and a plurality of coating liquids are discharged from a plurality of slits formed in the edge face in a direction of width of said web so that layers of the coating liquids are formed on the web, wherein:
-
a capillary number Ca which is calculated by an equation Ca=Uμ
/σ
satisfies an inequality 0.1<
Ca<
4, where U (m/s) is a running speed of said web, μ
(Pa·
s) is an average high shear viscosity of said coating liquids, and σ
(N/m) is a surface tension of the coating liquid for a top layer of said layers wherein the thickness of the top layer is 2 microns or less in the wet state.- View Dependent Claims (2)
a gap is formed between said web and a front edge face of said coating head at an upstream side of the plurality of slits in a running direction of said web; and
the coating liquid for a bottom layer of said layers is overflowed to the gap while the other coating liquids are applied on the bottom layer.
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3. A coating method in which a coating liquid is oversupplied to a web which continuously runs to form a bottom layer and then the web is relatively pressed against an edge face of a coating head and a plurality of coating liquids are discharged from a plurality of slits formed in the edge face in a direction of width of said web while a side of the edge face upstream of the plurality of slits removes a part of the bottom layer when the coating liquid of the bottom layer is wet so that a plurality of coating layers are formed on the bottom layer, wherein:
a capillary number Ca which is calculated by an equation Ca=Uμ
/σ
satisfies an inequality 0.1<
Ca<
4, where U (m/s) is a running speed of said web, μ
(Pa·
s) is an average high shear viscosity of the plurality of coating liquids, and σ
(N/m) is a surface tension of the coating liquid for a top layer of said layers wherein the thickness of the top layer is 2 microns or less in the wet state.- View Dependent Claims (4)
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5. A coating method in which a first coating liquid is oversupplied to a web which continuously runs to form a bottom layer and then the web is relatively pressed against an edge face of a coating head and a second coating liquid is discharged from a slit formed in the edge face in a direction of width of said web while a side of the edge face upstream of the slit removes a part of the bottom layer when the first coating liquid of the bottom layer is wet so that a top coating layer is formed on the bottom layer, wherein:
a capillary number Ca which is calculated by an equation Ca=Uμ
/σ
satisfies an inequality 0.1=Ca=4, where U (m/s) is a running speed of said web, μ
(Pa·
s) is a high shear viscosity of the second coating liquid, and σ
(N/m) is a surface tension of the second coating liquid wherein the thickness of the top coating layer is 2 microns or less in the wet state.- View Dependent Claims (6)
Specification