Application of the Tsai's modulus and double-double concepts to the definition of a new affordable design approach for composite laminates

Composites design has always been perceived to be complicated, time-consuming and therefore not affordable. With a paradigm shift, it is possible to make composites are as straightforward as metals. Each metal is characterized by two key material properties: its Young's modulus and strength. The adoption of the Tsai's modulus as the only stiffness constant characterising any CFRP, and failure strain as the only measure of strength, we can make composite design as straightforward as metals design. Actually, with these two material characteristics, for any CFRP, material, laminate, and strain allowable can all be scaled, just like metals. Another breakthrough is the replacement of the traditional quad laminates of 0, +/- 45, 90 by double-double (DD) in [+/-Phi/+/-psi]. This replacement allows to substuture a discrete collection by a continuous field of orientations. A few dozen choices, replaced by hundreds. Indeed, double-double can make structures lighter that quad cannot do, thanks to the Lam-search optimizer, which is able, in combination with Fem tools, to sort, instantaneously, the best DD angles allowing laminates stiffness and strength tailored on specific loading conditions. The bottom line: Tsai's modulus and double-double are new but are simple conceptually, and Lam-search makes their use practical. In the end, lower weight and lower cost are derived by DD to deliver aggressive taper and 1-axis layup that will be stiff, strong, easy to layup, not prone to error, wrinkle, warpage and delaminatnion.

Automated summary

By utilizing Tsai's modulus and double-double design for composites, it is possible to simplify the design process in a way similar to metals, achieving lighter, cheaper, and more structurally tailored solutions for specific loading conditions.