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Damage thresholds for low velocity impact on aircraft structural composites

Published online by Cambridge University Press:  04 July 2016

B. A. A. O’Kane
Affiliation:
Short Bros PLC, Belfast
P. P. Benham
Affiliation:
Queen’s University, Belfast

Summary

Seven composite laminates, three carbon, one Kevlar and three hybrid as supplied by an aircraft manufacturer were assessed for damage tolerance. Rectangular coupons were subjected to low velocity impact in the range 0-4 Joules by a swinging pendulum. The coupons were ultrasonically C-scanned to measure delamination area and visually inspected for damage. Residual strength tests in tension, compression, flexure and shear were then carried out on the damaged coupons. Visual damage, delamination damage and strength reduction thresholds were determined from the data and compared. Of the three thresholds, delamination damage and strength reduction tended to coincide. For the various lay-ups these were in the range of 1·5 to 2·0 J for the longer (tensile) specimens or in the case of the smaller (shear) specimens between 0·2-0·3 J. In all cases onset of visible damage occurred at slightly higher values of impact energy. The significance of specimen stiffness was noted.

Type
Research Article
Copyright
Copyright © Royal Aeronautical Society 1986 

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References

1. Foreign object impact damage to composites. ASTM STP 568 American Soc for Test and Mats, 1975.Google Scholar
2. Damage in composite materials. ASTM STP 775 American Soc for Test and Mats, 1982.Google Scholar
3. Dorey, G., Damage tolerance in advanced composite materials. RAE TR 7717, 1977.Google Scholar
4. Lenoe, E. M., Oplinger, D. W. and Burke, J. J. Fibrous composites in structural design, Plenum Press, New York, 1980.Google Scholar
5. O’Kane, B. A. A. and Benham, P. P. The damage tolerance of aircraft structural composites. Proc of 2nd Irish Durability and Fracture Conference, Limerick, 1984.Google Scholar
6. Lauraitis, K. N. and Sandorff, P. E. The effect of environment on the compressive strengths of laminated epoxy matrix composites. Lockheed-California, AFML-TR-79-4179, December 1979.Google Scholar
7. Benham, P. P. and O’kane, B. A. A. The effect of specimen stiffness on the damage tolerance of aircraft structural compo sites. Proc of 4th Irish Durability and Fracture Conference, Belfast, 1986.Google Scholar