JP2000158585A5 - Manufacturing method of laminated metal plate and laminated metal plate - Google Patents

Description

(6) In the above (1) to (5), the film is composed of at least two layers, and the intrinsic viscosity difference between the layers forming the non-laminated surface and the laminated surface is 0.01 to 0.5. A method for manufacturing a laminated metal plate.
(7) When laminating a biaxially stretched polyester film on at least one side of a metal plate, the temperature T _{0 of the metal plate at the start of laminating is equal to or higher than the melting point T f} of the film, and _{the temperature T 1} of the metal plate on the exit side of the laminating roll nip. _{A method for producing a laminated metal plate, which comprises setting the temperature to T f} or less of the melting point of the film and further setting the laminate index K defined by the following formula within the range of 1 to 20 msec.
K = (T ₀ −T _f ) × t / (T ₀ −T ₁ )
However, t: nip time
(8) When laminating a biaxially stretched polyester film on at least one side of a metal plate, the temperature T _{0 of the metal plate at the start of laminating is equal to or higher than the melting point T f} of the film, and _{the temperature T 1} of the metal plate on the exit side of the laminating roll nip. _{A laminated metal plate obtained by setting the temperature to T f} or less of the melting point of the film and further setting the laminate index K defined by the following formula within the range of 1 to 20 msec.
K = (T ₀ −T _f ) × t / (T ₀ −T ₁ )
However, t: nip time
(9) When a biaxially stretched polyester film having a relaxation time T1ρ of benzene ring carbon at positions 1 and 4 in structural analysis by solid high-resolution NMR having a relaxation time T1ρ of 150 msec or more is laminated on at least one side of a metal plate, the metal at the start of lamination. The temperature T ₀ of the plate is set to the melting point T _{f or more of the film, the temperature T 1} of the metal plate on the exit side of the laminate roll nip is set to the melting point T _f or less of the film, and the laminate index K defined by the following formula is set to 1 to 20 msec. Laminated metal plate obtained by laminating within the range of.
K = (T ₀ −T _f ) × t / (T ₀ −T ₁ )
However, t: nip time

Claims (9)

When laminating a biaxially stretched polyester film having a relaxation time T1ρ of benzene ring carbon at positions 1 and 4 of 150 msec or more in structural analysis by solid high-resolution NMR on at least one side of the metal plate, the temperature of the metal plate at the start of lamination T ₀ the film melting point T _f or more, the laminate roll nip exit-side temperature T ₁ of the metal plate while below the melting point T _f of the film, further a range of 1~20msec laminate index K which is defined by the following formula A method for producing a laminated metal plate, characterized in that laminating.
K = (T ₀ −T _f ) × t / (T ₀ −T ₁ )
Where t: nip time   The method for producing a laminated metal plate according to claim 1, wherein the nip time t is in the range of 0.005 to 0.05 sec.   The method for producing a laminated metal sheet according to claim 1 or 2, wherein 90 mol% or more of the polyester units constituting the film are ethylene terephthalate units.   The method for producing a laminated metal sheet according to any one of claims 1 to 3, wherein 95 mol% or more of the polyester units constituting the film are ethylene terephthalate units.   The method for producing a laminated metal plate according to any one of claims 1 to 4, wherein the plane orientation coefficient of the film is 0.14 or less.   6. The film according to claim 1, wherein the film is composed of at least two layers, and the intrinsic viscosity difference between each layer forming the non-laminated surface and the laminated surface is 0.01 to 0.5. The manufacturing method of the laminated metal plate of description. When laminating a biaxially stretched polyester film on at least one side of a metal plate, the temperature T of the metal plate at the start of lamination ₀ The melting point T of the film _f The temperature T of the metal plate on the exit side of the laminate roll nip ₁ The melting point T of the film _f A method for producing a laminated metal plate, comprising: laminating with a laminate index K defined by the following formula within a range of 1 to 20 msec.
K = (T ₀ -T _f ) × t / (T ₀ -T ₁ )
Where t: nip time When laminating a biaxially stretched polyester film on at least one side of a metal plate, the temperature T of the metal plate at the start of lamination ₀ The melting point T of the film _f The temperature T of the metal plate on the exit side of the laminate roll nip ₁ The melting point T of the film _f A laminated metal plate obtained by laminating the laminate index K defined by the following formula within the range of 1 to 20 msec.
K = (T ₀ -T _f ) × t / (T ₀ -T ₁ )
Where t: nip time When laminating a biaxially stretched polyester film having a relaxation time T1ρ of benzene ring carbon at positions 1 and 4 of 150 msec or more in structural analysis by solid high-resolution NMR on at least one side of the metal plate, the temperature of the metal plate at the start of lamination T ₀ The melting point T of the film _f The temperature T of the metal plate on the exit side of the laminate roll nip ₁ The melting point T of the film _f A laminated metal plate obtained by laminating the laminate index K defined by the following formula within the range of 1 to 20 msec.
K = (T ₀ -T _f ) × t / (T ₀ -T ₁ )
Where t: nip time