Semnan University Press Mechanics of Advanced Composite Structures 2423-4826 13 1 2026 04 01 Modeling and Experimental Validation of Carbon Fiber-Kevlar Honeycomb Core Sandwich Structure 69 82 9796 10.22075/macs.2025.36296.1782 EN Anil Kumar G. B. Pant DSEU Okhla-I Campus, New Delhi,110020, India Sapna Raghav G. B. Pant DSEU Okhla-I Campus, New Delhi,110020, India Jayant Pandurang Supale G. B. Pant DSEU Okhla-I Campus, New Delhi,110020, India Gajanan Shravan Datar Government College of Engineering and Research, Avasari, Pune- 412406, India Journal Article 2024 12 18 Composite sandwich structures are becoming more and more popular in the sports, automotive, and aerospace sectors because of their excellent strength-to-weight ratio. However, more research is required to fully understand their stiffness properties and the accuracy of predictive modeling. By simulating and examining two different sandwich structures made of Carbon fiber face sheets and Kevlar honeycomb core material represented as an equivalent solid, this study fills this gap. The Gibson and Ashby model has been adopted to find the equivalent orthotropic properties of the core because this model provides a balance between precision, computational efficiency, and suitability for honeycomb cores, guaranteeing accurate stiffness predictions and facilitating simple engineering design implementation. Experimental stiffness values of 529.74 N/mm and 479.98 N/mm for the two configurations are obtained by performing a “Three Point Bend Test” on the manufactured panels. With an accuracy deviation of about 0.84%, the numerical model predictions closely resemble the experimental findings, demonstrating the model’s dependability in representing the material’s static behavior. The sandwich structure demonstrates a stiffness of about 565 N/mm, suitable for high-load applications in aerospace and automotive sectors. Numerical modeling effectively validates the experimental results by accurately predicting the stiffness of Kevlar honeycomb core sandwich panels. Numerical modeling Composite sandwich Kevlar® Honeycomb Orthotropic Properties Stiffness https://macs.semnan.ac.ir/article_9796_21508b1d1867fce78a4bf07d275d34f3.pdf