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Abstract

Carbon-fibre epoxy panels have been subjected to rapid high temperature loads. The effects of temperature, exposure time and moisture content of the panels have been studied. It could be demonstrated that the combination of high moisture content and rapid heating can lead to excessive damage, such as sudden formation of delaminations up to the development of large bubbles on the panel. While it is well known that matrix and fibre–matrix interface strength generally decrease both with water uptake and temperature increase, a more severe damage mechanism has been observed here. The combination of high moisture content and rapid high temperature loads leads to an internal vapour pressure overload that can cause extensive cracks and delaminations. Subsequently, this permanent damage leads to serious changes in mechanical properties. Whereas heating dry panels to 350℃ for 1 h and testing them at room temperature reduced interlaminar shear strength less than 25%, many of the moist panels were fully destroyed within the first minute of heating.

Keywords

Carbon fibres laminate delamination high-temperature properties non-destructive testing

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References

Bank

Gentry

Barkatt

. Accelerated test methods to determine the longterm behavior of frp composite structures: environmental effects. J Reinf Plast Compos 1995; 14: 559–587.

Springer

. Environmental effects on composite materials, Technomic Publishing Company, Inc, 1981, 1981.

Tsotsis

. Thermo-oxidative aging of composite materials. J Compos Mater 1995; 29(3): 410–422.

Fang

Yue

. Thermal degradation study of interpenetrating polymer network based on modified bismaleimide resin and cyanate ester. Polym Int 2003; 52: 15–22.

Pering

Farrell

Springer

Degradation of tensile and shear properties of composite exposed to fire or high temperature. In: Springer

(ed). Environmental effects on composite materials, Berlin, Germany: Technomic Publishing Company Inc, 1981.

Milke

Vizzini

. Thermal response of fibre-exposed composites. J Compos Technol Res 1991; 13(3): 145–151.

Guetta

Bunsell

Belinski

. Effect of thermal spiking on carbon Toray 300B reinforced polystyrylpyridine composites: a kinetic, spectroscopic and mechanical study. Composites 1989; 20(5): 461–465.

Pritt HL. Thermal degradation of graphite–epoxy composites. Final report number N62669-79-C-0270, Naval Air Development Center, 1980.

Burcham

Eduljee

Gillespie

. Investigation on the microcracking behavior of bismaleimide composites: during thermal aging. Polym Compos 1995; 16(6): 507–517.

10.

Mascia

Zhang

. Mechanical properties and thermal aging of a perfluoroether–modified epoxy resin in castings and glass fibre composites. Composites 1995; 26(5): 379–385.

11.

Ray

Mula

Bera

. Prior thermal spikes and thermal shocks on mechanical behavior of glass fiber-epoxy composites. J Reinf Plast Compos 2006; 25(2): 197–213.

12.

McNally

McCourt

Spedding

. The effect of rapid temperature excursion on the moisture absorption and dynamic mechanical properties of carbon fibre composite materials. Dev Chem Eng Mineral Process 2004; 12(1/2): 169–178.

13.

Stansfield KE and Pritchard G. Damage generation and healing during composite thermal spikes. In: 21st international SAMPE technical conference. Covina, CA, USA, 25–28 September 1989, pp. 120–129.

14.

McNally GM and McCourt MP. The effect of thermal spiking on the moisture absorption and the dynamic mechanical properties of carbon fibre epoxy resin laminates. In: Conference Proceedings ANTEC. Nashville, TN, 4–8 May 2003, pp. 2064–2068.

15.

Costa

de Almeida

Rezende

. The influence of porosity on the interlaminar shear strength of carbon/epoxy and carbon/bismaleimide fabric laminates. Compos Sci Technol 2001; 61: 2101–2108.

16.

Adamson

. Thermal expansion and swelling of cured epoxy resins used in graphite/epoxy composite material. J Mater Sci 1980; 15: 1736–1745.

17.

Hahn

Kim

Swelling of composite laminates. In: Vinson

(ed). Advanced composite materials – environmental effects, Baltimore: ASTM STP 658, 1978, pp. 98–120.

18.

Apicella

Lee

Sorption & diffusion. In: Lee

(ed). International encyclopaedia of composites 2, New York: VHC Publishers Inc, 1991, pp. 44–67.

19.

Thomason

. The interface region in glass fibre-reinforced epoxy resin composites: 2. Water absorption, voids and the interface. Composites 1995; 26: 477–485.

20.

Skourlis

McCullough

. The effect of temperature on the behavior of the interphase in polymeric composites. Compos Sci Technol 1993; 49: 363–368.

21.

Product data sheets. Hexcel Inc.

Rapid high temperature loads on dry and moist carbon fibre epoxy composite materials

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