Ramped stiffener and apparatus and method for forming the same

The invention claimed is: 1. A die tool for forming a top-hat section stiffener, the die tool comprising: an outer die having at least two axially aligned first cylindrical body sections, the at least two first cylindrical body sections each being connected to an opposing end face by a radiused shoulder, and at least one second cylindrical body section connected between the opposing end faces of adjacent ones of the at least two first cylindrical body sections, the diameter of the first cylindrical body sections being greater than the diameter of the second cylindrical body section; and an inner die having at least one third cylindrical body section having opposing end faces, each end face being connected to a respective axially aligned fourth cylindrical body section by a radiused concave portion, the diameter of the at least one third cylindrical body section being greater than the diameter of the fourth cylindrical body sections, wherein: the inner and outer dies are disposed relative to one another such that each third body section of the inner die is disposed between adjacent ones of the at least two the first cylindrical body sections of the outer die, the inner and outer dies being spaced apart from one another, the radiused shoulders of the outer die have a radius of curvature that varies about the circumference of the first and second cylindrical body sections, and the radiused concave portions of the inner die have a radius of curvature that varies about the circumference of the at last one third cylindrical body section and of the fourth cylindrical body sections; and the inner and outer dies are counter rotatable such that the radius of curvature of the radiused shoulders and radiused concave portions at any given point varies as the inner and outer dies are rotated. 2. The die tool of claim 1 , wherein: the central axis of each of the at least one second cylindrical body section of the outer die is offset from the axis of rotation of the outer die; the central axis of each of the at least one third cylindrical body section of the inner die is offset from the axis of rotation of the inner die; and the magnitude of the respective axial offsets of the inner and outer dies is equal. 3. The die tool of claim 2 , wherein the inner and outer dies are arranged such that when the radius of curvature of the radiused shoulders of the outer die at the points adjacent to the inner die are at a maximum value each of the at least one second cylindrical body of the outer die is at a minimum distance from the axis of rotation of the inner die such that the depth of the top-hat sections formed by the die tool is a minimum value. 4. The die tool of claim 1 , wherein the radius of curvature radiused shoulders of the outer die and of the radiused concave portions of the inner die varies at an equal rate between minimum and maximum values over 180° of the circumference of the respective dies. 5. A method of forming a fibre reinforced composite top-hat stiffener comprising passing a sheet of fibre reinforced composite material between the inner and outer dies of a die tool comprising an outer die having at least two axially aligned first cylindrical body sections, the at least two first cylindrical body sections each being connected to an opposing end face by a radiused shoulder, and at least one second cylindrical body section connected between the opposing end faces of adjacent ones of the at least two first cylindrical body sections, the diameter of the first cylindrical body sections being greater than the diameter of the at least one second cylindrical boy section; and an inner die having at least one third body section having opposing end faces, each end face being connected to a respective axially aligned fourth cylindrical body section by a radiused concave portion, the diameter of the at least one third cylindrical body section being greater than the diameter of the fourth cylindrical body sections, wherein: the inner and outer dies are disposed relative to one another such that each third body section of the inner die is disposed between adjacent ones of the at least two first cylindrical body sections of the outer die, the inner and outer dies being spaced apart from one another, the radiused shoulder of the outer die have a radius of curvature that varies about the circumference of the first and second cylindrical body sections, and the radiused concave portions of the inner die have a radius of curvature that varies about the circumference of the at least one third cylindrical body section and of the fourth cylindrical body sections; the inner and outer dies are counter rotatable such that the radius of curvature of the radiused shoulders and radiused concave portions at any given point varies as the inner and outer dies are rotated, and; counter-rotating the inner and outer dies as the fibre reinforced material is passed between them.