| As the use of carbon fiber reinforced polymers (CFRP) increases in aerospace structures it is important to use this material in an efficient manner such that both the weight and cost of the structure are minimized while maintaining its performance. To combat undesirable vibrational characteristics of a structure an optimization program was developed which takes advantage of the orthotropic nature of composite materials to maximize eigenfrequency bandgaps. The results from the optimization process were then fabricated and subjected to modal testing. The experiments show that local fiber angle optimization is a valid method for modifying the natural frequencies of a structure with the theoretical results generally predicting the performance of the optimized composite plates. |
