1 |
J. R. Kollgaard and S. G. LaRiviere, "NDE challenges with future commercial aircraft - a Boeing perspective," Review of Progress in Quantitative NDE, Vol. 27, pp. 23-28 (2008)
|
2 |
F. Aymerich and P. Priolo, "Characterization of fracture modes in stitched and unstitched cross-ply laminates subjected to low-velocity impact and compression after impact loading," International J. of Impact Engineering, Vol. 35, pp. 591-608 (2008)
DOI
ScienceOn
|
3 |
I. Ohsawa, I. Kimpara, K. Kageyama, T. Suzuki and A. Yamashita, "AE characterization of compressive residual strength of impact-damaged CFRP laminates," Progress in Acoustic Emission VII, JSNDI, pp. 511-516 (1994)
|
4 |
F. A. Fisher, J. A. Plumer and R. A. Perala, Aircraft Lightning Protection Handbook, Federal Aviation Administration, DOT/FAA/CT-89/22, September (1989)
|
5 |
ASTM D7137-07, "Standard test method for compressive residual strength properties of damaged polymer matrix composite plates," American Soc. for Testing and Materials (2007)
|
6 |
J. Guo, Y. Tang, F. Liang, Z. Zhao, D. Firsich and J. Fielding, "Carbon nanofiber paper for lightning strike protection of composite materials," Composites Part B: Engineering, 41(2) pp. 192-198 (2010)
DOI
ScienceOn
|
7 |
S.-W. Seo, M.-S. Ha, O.-Y. Kwon and H.-S. Choi, "Improvement of electrical conductivity of carbon-fiber reinforced plastics by nano-particles coating," J. of the Korean Soc. for Composite Materials, pp. 222-227 (2010)
|
8 |
J. -H. Shin, O. -Y. Kwon and S. -W. Seo, "Acoustic emission monitoring of compression-after-impact test of nanoparticles coated CFRP damaged by simulated lightning strikes," Journal of the Korean Society for Nondestructive Testing, Vol. 31, pp. 62-67 (2011)
|