Investigating the effects of metallic submicron and nanofilms on fiber-reinforced composites for lightning strike protection and EMI shielding
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Publisher
Springer Science and Business Media LLC
Link
http://link.springer.com/content/pdf/10.1007/s42114-020-00135-7.pdf
Reference24 articles.
1. Xiangcheng L, Chung DDL (1999) Electromagnetic interference shielding using continuous carbon-fiber carbon-matrix and polymer-matrix composites. Compos Part B 30:227–231
2. Katunin A, Krukiewicz K, Herega A, Catalanotti G (2016) Concept of a conducting composite material for lightning strike protection. Adv Mater Sci 16(2):32–46
3. Gardner G (2006) Lightning strike protection for composite structures. In: High-Performance Composites, vol 14
4. Yichao L, Renfu L, Luyi L, Xianrong H (2015) Experimental study of damage characteristics of carbon woven fabric/epoxy laminates subjected to lightning strike. Composite: Part A 79:164–175
5. Yang Y, Booma R, Irion B, van Heerden DJ, Kuiperc P, Wita H (2012) Recycling of composite materials. Chem Eng Process 51:53–68
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