The influence of loading rate on the interfacial fracture toughness of carbon fiber-metal laminates based on magnesium alloy

Advanced Materials Research

Volumn 328-330, Issue , 2011, Pages 1373-1376

  Zhu, Gongzhi ^a   Zheng, Changliang ^a   Lu, Xiaofeng ^b  

^a DALIAN MARITIME UNIVERSITY   (China)

^b BEIHANG UNIVERSITY   (China)

Author keywords

Carbon fiber; Fracture toughness; Laminate; Loading rate; Magnesium alloy

Indexed keywords

FIBER METAL LAMINATES; FIBER REINFORCED ALUMINUM; HIGH RATE; HIGH RESISTANCE; HIGH SPECIFIC STRENGTH; IMPACT TEST; INTERFACIAL FRACTURE TOUGHNESS; LOADING RATE; LOW LOADING; LOW RATES; YOUNG'S MODULUS;

ALUMINUM; ALUMINUM ALLOYS; CARBON FIBERS; CERIUM ALLOYS; CRACKS; DAMAGE TOLERANCE; FATIGUE CRACK PROPAGATION; FATIGUE DAMAGE; FIBER REINFORCED MATERIALS; FIBERS; FRACTURE; GLASS FIBERS; GLASS INDUSTRY; GROWTH (MATERIALS); IMPACT RESISTANCE; LAMINATES; LOADING; MAGNESIUM; MAGNESIUM ALLOYS; MAGNESIUM PRINTING PLATES; MECHATRONICS; STRENGTH OF MATERIALS;

FRACTURE TOUGHNESS;

EID: 80053117325     PISSN: 10226680     EISSN: None     Source Type: Book Series    
DOI: 10.4028/www.scientific.net/AMR.328-330.1373     Document Type: Conference Paper

References (4)

1. A. ASUNDI, Alta Y.N. CHOI: Fiber Metal Laminates: An Advanced Material for Future Aircraft. Journal of Materials Processing Technology, Vol. 63(1997), p.384-394. (Pubitemid 127384891)
2. P. Cortés, W.J. Cantwell: The fracture properties of a fibre-metal laminate based on magnesium alloy. Composites, Vol. 37 (2006), p.163-170. (Pubitemid 41748208)
3. P. COMPSTON, W. J. CANTWELL and N. JONES: Influence of loading rate on the interfacial fracture toughness of a polyamide-based fiber-metal laminate. JOURNAL OF MATERIALS SCIENCE LETTERS,Vol. 21(2002), p. 383- 386. (Pubitemid 34520024)
4. M. J. BURNS, P. COMPSTON: Interfacial fracture toughness of polyester-based fiber-metal laminates with primary contact and secondary adhesive bonding. JOURNAL OF MATERIALS SCIENCE, Vol.39 (2004), p. 2855-2859.