Abstract: A glass molding method for molding a glass preform to a glass product via an assembly mold includes the following steps. The glass preform is preheated to a glass molding temperature. The assembly mold is heated to a predetermined mold temperature lower than the glass molding temperature and maintained at the mold temperature. The preheated glass preform is transferred to the assembly mold. The assembly mold is closed together for molding the glass preform to the glass product. The glass product and the assembly mold are gradually cooled to an open temperature. Then the assembly mold is opened to take the glass product out of the assembly mold.
Abstract: The present invention discloses a solid structure glass with a thin cross-sectional plane and a method for making the same. The solid structure glass includes an inner surface and an outer surface each combined of a curved surface, or at least two curved surfaces, or a curved surface and at least one flat surface, or at least two flat surfaces. As a result, the solid structure glass can easily be made with different shapes so as to be especially compatible with the form factor of products. Besides, the solid structure glass is made by heating a glass preform and a mold together into a forming temperature of the glass preform under condition that the glass preform is in a softened state.
Abstract: The present invention discloses an integrated glass including opposite outer and inner surfaces and a solid sculpted area formed either on the outer surface or the inner surface. The solid sculpted area includes a number of concave shapes or convex shapes which can be used to form letters, numbers or patterns for user decorating or identifying. Besides, a mold for fabricating the integrated glass, a method for making the integrated glass, and a touch sensor device with such integrated glass are also disclosed by the present invention.