Sage Journals: Discover world-class research

Abstract

This paper presents a methodology and research study that characterises toughened materials, as is needed for optimisation of composite manufacturing processes. The specific challenge is to cover all of the stages of advanced composite manufacturing: fibre deposition by automatic fibre placement machines, hot or room temperature debulking, and consolidation in an autoclave. In these processes the material experiences a wide range of processing parameters: pressure, load rate, temperatures, and boundary constraints. In these conditions, toughened prepregs exhibit complex rheological behaviour, with diverse flow and deformation mechanisms at various structural scales. Here a series of experimental results are presented in order to describe the temperature, viscosity, flow mechanisms, and scale-effects of simple uncured prepreg stacks. The driver for this study is to obtain a further understanding of flow mechanisms throughout the consolidation phase of composites manufacture since fibre path defects are most likely to occur during compaction, prior to vitrification.

Keywords

Prepreg microstructures optical microscopy consolidation manufacturing

Get full access to this article

View all access options for this article.

References

Lukaszewicz DH-JA. Considerations for automated layup of carbon-fibre thermoset preimpregnates. PhD Thesis, University of Bristol, Bristol, UK, 2011.

Ivanov D, Li Y, Ward C, et al. Transitional behaviour of prepregs in Automated fibre deposition processes. In: Proceedings of the 19th international conference on composite materials, Montreal, 2013. http://www.iccm-central.org/Proceedings/ICCM19proceedings/ICCM19-eproceedings.pdf.

Hélénon F, Ivanov D and Potter K. Modelling slit tape deposition during automated fibre placement. In: Proceedings of the 19th international conference on composite materials, Montreal 2013. http://www.iccm-central.org/Proceedings/ICCM19proceedings/ICCM19-eproceedings.pdf.

Hubert

Poursartip

. Aspects of the compaction of composite angle laminates: an experimental investigation. J Compos Mater 2001; 35: 2–26.

Gutowski

Dillon

. The elastic deformation of lubricated carbon fiber bundles: comparison of theory and experiments. J Compos Mater 1992; 26: 2330–2347.

Hubert

Poursartip

. A method for the direct measurement of the fibre bed compaction curve of composite prepregs. Compos A Appl Sci Manuf 2001; 32: 179–187.

Buntain

Bickerton

. Modeling forces generated within rigid liquid composite molding tools. Part A: experimental study. Compos A Appl Sci Manuf 2007; 38: 1729–1741.

Kelly

. A viscoelastic model for the compaction of fibrous materials. J Text Instit 2011; 102: 689–699.

Lukaszewicz

DH-JA

Potter

. Through-thickness compression response of uncured prepreg during manufacture by automated layup. PI Mech Eng B J Eng Manuf 2012; 226: 193–202.

10.

Belnoue

JP-H

Nixon-Pearson

Hallett

. A novel hyper-viscoelastic model for consolidation of toughened prepregs under processing conditions. Mech Mater 2016; 97: 118–134.

11.

Lukaszewicz

DHJA

Potter

. The internal structure and conformation of prepreg with respect to reliable automated processing. Compos A Appl Sci Manuf 2011; 42: 283–292.

12.

Hubert P, Johnston A, Poursartip A, et al. Cure kinetics and viscosity models for hexcel 8552 epoxy resin. In: International SAMPE symposium and exhibition (Proceedings), 2001, vol 46, pp.2341–2354.

13.

Hexcel HexPly 8552, Epoxy Matrix Product Datasheet. http://www.hexcel.com/Resources/DataSheets/Prepreg-Data-Sheets/8552_eu.pdf (accessed 16 August 2016).

14.

Hexcel HexPly M21, Epoxy Matrix Product Datasheet. pdf download from: http://www.hexcel.com/Resources/DataSheets/Prepreg-Data-Sheets/M21_global.pdf (accessed 16 August 2016).

15.

Van Ee D and Poursartip A. HexPly 8552, Material Properties Database for use with COMPRO CCA and Raven, National Center for Advanced Materials Performance, 2009.

16.

Rogers

. Squeezing flow of fibre-reinforced viscous fluids. J Eng Math 1989; 23: 81–89.

17.

Rouhi

Wysocki

Larsson

. Experimental assessment of dual-scale resin flow-deformation in composites processing. Compos A Appl Sci Manuf 2015; 76: 215–223.

18.

Campbell

Ply collation: a major cost driver. In: Campbell

(ed). Manufacturing processes for advanced composites, Amsterdam: Elsevier Science, 2003, pp. 131–73.

19.

Barnes

Cogswell

. Transverse flow processes in continuous fibre-reinforced thermoplastic composites. Composites 1989; 20: 38–42.

An experimental investigation of the consolidation behaviour of uncured prepregs under processing conditions

Abstract

Keywords

Get full access to this article

References