ITECH graduate Yanan Guo just published the journal article “A design methodology for fiber layup optimization of filament wound structural components” in Structures Journal (Volume 38, April 2022, pages 1125-1136) with co-authors Marta Gil Pérez, Gokhan Serhat and Jan Knippers.
The article is based on her 2020 ITECH M.Sc. Thesis Project "A Novel Design Methodology for Optimized Fiber Layup of Structural Components".
The article can be found at: https://doi.org/10.1016/j.istruc.2022.02.048
Congratulations Yanan!
Abstract:
The applications of fiber-reinforced polymer (FRP) composites extend rapidly along with the development of new manufacturing techniques. However, due to the complexities introduced by the material and fabrication processes, the application of conventional structural design methods for construction members has been significantly challenging. This paper presents an alternative methodology to find optimum fiber layups for a given tube-shape geometry via a graphical optimization strategy based on structural performance requirements. The proposed technique employs simplified shell element models based on classical lamination theory (CLT) to avoid explicit fiber modeling in the FEA simulations. Lamination parameters are utilized to generate the reduced stiffness matrices for continuous multi-layer FRP lamination. The fiber layup of the component is retrieved from the optimal lamination parameters that maximize the structural performance. The case study results demonstrate that the developed method provides compact solutions, linking the structural design requirements with optimal fiber orientations and volumetric proportions. In addition, the determined solutions can be interpreted directly by the winding fabrication settings.