@article { author = {Muniraj, D. and Sreehari, V.M.}, title = {Experimental Damage Evaluation of Honeycomb Sandwich with Composite Face Sheets under Impact Load}, journal = {International Journal of Engineering}, volume = {34}, number = {4}, pages = {999-1007}, year = {2021}, publisher = {Materials and Energy Research Center}, issn = {1025-2495}, eissn = {1735-9244}, doi = {10.5829/ije.2021.34.04a.26}, abstract = {Aerospace structures are highly vulnerable to impact loads whose damage tolerance, and its resistance vary over the range of impact velocity. Honeycomb sandwich structures are used in aerospace industries where mass efficient and impact resistant structures are needed. However, the structural integrity of these structures is reduced by impact load due to tool drop, runway debris, hailstones and improper handling of the structure. A thorough investigation of the damage behaviour of honeycomb sandwich under low-velocity impact and the post-impact residual strength determination is required to design a crashworthy lightweight structure. This paper presents the experimental evaluation of specific energy absorption using Charpy impact, residual compressive strength by compression after impact and damage evaluation of honeycomb sandwich structures having composite face sheets. Parametric studies on composites and honeycombs are carried out by varying the cell size, cell thickness, core height, impact velocity, thickness and orientation of lamina. Densely packed thick honeycombs provide higher fracture energy. Under transverse compressive loading, the honeycomb core undergoes cell wall buckling, crushing and densification. Load-displacement history under in-plane compression and compression after impact for different impact energies is observed. The present study contributes for the understanding how various parameters affect the characteristics of face sheet indentation and plastic buckling of honeycomb sandwich structures with composite face sheets, thereby providing useful guidelines for its potential applications in impact engineering.}, keywords = {Damage,Honeycomb sandwich,Composite,Impact,Compression after impact}, url = {https://www.ije.ir/article_127831.html}, eprint = {https://www.ije.ir/article_127831_5e0a2436a8f285188e54eb243299e624.pdf} }