Patent ID: 7387695
Filing Date: 2008-06-17
Classification: B32B,G03B,Y10T

Abstract:
1. A method of designing and manufacturing a laminated sheet having a multi-layered structure composed of n (n is a natural number of three or above) number of layers which are asymmetric in a thickness direction, the method comprising: (a) solving a simultaneous equation of a formula for a curvature θ by eliminating e where, θ indicates a curvature (1/mm) of the laminated sheet, t y is a distance (mm) in a thickness direction from one side surface to an opposite side surface of the laminated sheet when the one side surface is 0, E(y) indicates an elasticity of the laminated sheet in y, e e(y) indicates a flexible expansion (dimensionless) of a material of the laminated sheet in y before laminating materials, and α(y) indicates a linear expansion coefficient (1/° C.) of a material of the laminated sheet in y; (b) calculating a curvature change rate ε as a function of an elasticity Ei, a layer thickness t (c) determining an elasticity Ei, a layer thickness t wherein a percentage of a linear expansion coefficient of a layer having a minimum linear expansion coefficient with respect to a linear expansion coefficient of a layer having a maximum linear expansion coefficient is 95% or less, an elasticity of each layer of the laminated sheet is 10000 MPa or less, and a percentage of an elasticity of a layer having a minimum elasticity with respect to an elasticity of a layer having a maximum elasticity is 90% or less, a ratio of a thickness of a layer having a maximum thickness with respect to a thickness of a layer having a minimum thickness is 200 or less, and a curvature change rate ε (1/mm° C.) of the laminated sheet with respect to a temperature change ΔK calculated by a simultaneous equation of Formula 1 satisfies: −7.0×10 (d) producing the laminated sheet based upon said curvature change rate, said elasticity and said linear expansion coefficient determined for each said layer.