Effects of void geometry on elastic properties of unidirectional fiber reinforced composites

Hansong Huang; Ramesh Talreja

doi:10.1016/j.compscitech.2005.02.019

journal article Oct 01, 2005

Effects of void geometry on elastic properties of unidirectional fiber reinforced composites

Hansong Huang Ramesh Talreja

Composites Science and Technology Vol. 65 No. 13 pp. 1964-1981 · Elsevier BV

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References

50

[1]

Geier (1994)

[2]

Summerscales "Manufacturing defects in fibre-reinforced plastics composites" Non-Destructive Testing Condition Monitoring (1994)

[3]

Manson "Composite processing and manufacturing – an overview" (2000)

[4]

Prakash "Significance of defects in the fatigue failure of carbon fiber reinforced plastics" Fiber Sci Technol (1981) 10.1016/0015-0568(81)90009-9

[5]

Guerdal "Effects of processing induced defects on laminate response: interlaminar tensile strength" SAMPE J (1991)

[6]

Bulsara "Damage initiation under transverse loading of unidirectional composites with arbitrarily distributed fibers" Compos Sci Technol (1999) 10.1016/s0266-3538(98)00122-5

[7]

Sørensen "Effects of nonuniformity of fiber distribution on thermally-induced residual stresses and cracking in ceramic matrix composites" Mech Mater (1993) 10.1016/0167-6636(93)90010-o

[8]

Ciriscioli "An expert system for autoclave curing of composite" J Compos Mater (1990) 10.1177/002199839102501201

[9]

Hardt "Process control of thermosetting composites: context and review" (1997)

[10]

Influence of processing and material variables on resin‐fiber interface in liquid composite molding

N. Patel, V. Rohatgi, L. James Lee

Polymer Composites 1993 10.1002/pc.750140210

[11]

Tang "Effects of cure pressure on resin flow, voids, and mechanical properties" J Compos Mater (1985) 10.1177/002199838702100502

[12]

Mcgeehan "Processing/performance relationships considering voids in structural reaction injection molding" Polym Eng Sci (1993) 10.1002/pen.760332407

[13]

Ghiorse "Effect of void content on the mechanical properties of carbon/epoxy laminates" SAMPE Quart (1993)

[14]

Barraza "Porosity reduction in the high-speed processing of glass-fiber composites by resin transfer molding" J Compos Mater (2004) 10.1177/0021998304038649

[15]

Simacek "A numerical method to predict fiber tow saturation during liquid composite molding" Compos Sci Technol (2003) 10.1016/s0266-3538(03)00155-6

[16]

Campbell "Porosity in carbon fiber composites: an overview of cause" J Adv Mater (1995)

[17]

Olivier "Effects of cure cycle pressure and voids on some mechanical properties of carbon/epoxy laminates" Composites (1995) 10.1016/0010-4361(95)96808-j

[18]

Lundstrom "Void formation in RTM" J Reinforced Plastics Compos (1993) 10.1177/073168449301201207

[19]

Hayward "Effect of process variables on the quality of RTM moulding" SAMPE J (1990)

[20]

Shim "Flow and void characterization of stitched structural composites using resin film infusion process (RFIP)" Polym Compos (1994) 10.1002/pc.750150610

[21]

Judd "Voids and their effects on the mechanical properties of composites – an appraisal" SAMPE J (1978)

[22]

Howe CA, Paton RJ, Goodwin AA. A comparison between voids in RTM and prepreg carbon/epoxy laminates. In: ICCM-11 conference proceedings, Gold Coast, Queensland, Australia, vol. 4, 1997. p. 46–51.

[23]

Goodwin AA, Howe CA, Paton RJ. The role of voids in reducing the interlaminar shear strength in RTM laminates. In: ICCM-11 conference proceedings, Gold Coast, Australia, 1997. p. 11–9.

[24]

Mura "Inclusion problems" Appl Mech Rev (1996) 10.1115/1.3101963

[25]

Nemat-Nasser (1999)

[26]

Berryman JG. Role of porosity in estimates of composite elastic constants. In: Composite material technology conference proceedings: American Society of Mechanical Engineers, vol. 53; 1993. p. 223–35.

[27]

Madsen "Physical and mechanical properties of unidirectional plant fibre composites – an evaluation of the influence of porosity" Compos Sci Technol (2003) 10.1016/s0266-3538(03)00097-6

[28]

Wu Y, Shivpuri R, Lee LJ. Effect of macro and micro voids on elastic properties of polymer composites. In: Annual technical conference – ANTEC conference proceedings, vol. 2; 1997. p. 1849–54.

[29]

Farouk A, Langrana NA, Weng GJ. Modulus prediction of a cross-ply fiber reinforced fabric composite with voids. In: Plastics and plastics composites: material properties, part performance, and process simulation conference proceedings. ASME, vol. 29; 1991. p. 207–308.

[30]

Chao "Prediction of elastic moduli of porous materials with equivalent inclusion method" J Reinforced Plastics Compos (1999) 10.1177/073168449901800701

[31]

Gowayed "The effect of voids on the elastic properties of textile reinforced composites" J Compos Technol Res (1997) 10.1520/ctr10027j

[32]

Jeong "Effects of voids on the mechanical strength and ultrasonic attenuation of laminated composites" J Compos Mater (1997) 10.1177/002199839703100303

[33]

Purslow "On the optical assessment of the void content in composite materials" Composites (1984) 10.1016/0010-4361(84)90276-3

[34]

Bowles "Void effects on the interlaminar shear strength of unidirectional graphite-fiber-reinforced composites" J Compos Mater (1992) 10.1177/002199839202601006

[35]

Rubin "The effect of porosity on elastic constants of representative aircraft laminates" J Adv Mater (1994)

[36]

Kardos JL, Dave R, Dudukovic MP. Voids in composites. In: Manufacturing international conference proceedings: ASTM, vol. IV; 1988. p. 41–48.

[37]

Dudukovic "Autoclave processing of long fiber thermoplastic composites" Chem Eng Sci (1990) 10.1016/0009-2509(90)80137-4

[38]

Patel "Effects of fiber mat architecture on void formation and removal in liquid composite" Polym Compos (1995) 10.1002/pc.750160507

[39]

ASTM. The Composite materials handbook MIL 17, vol 3. West Conshohocken (PA): ASTM International, 2002.

[40]

Hsu "A morphological study of porosity defects in graphite-epoxy composite" Rev Progress Quantitative NDE (1986)

[41]

Effective Elastic Properties of Cracked Solids: Critical Review of Some Basic Concepts

Mark Kachanov

Applied Mechanics Reviews 1992 10.1115/1.3119761

[42]

Lacy "On representation of damage evolution in continuum damage mechanics" (1997)

[43]

Lundstrom "Influence from process parameters on void formation in resin transfer molding" Polym Compos (1994) 10.1002/pc.750150105

[44]

Noh "Effect of various parameters on the effective properties of a cracked ply" J Compos Mater (2001) 10.1177/002199801772662055

[45]

Christensen "A critical evaluation for a class of micromechanics models" J Mech Phys Solids (1990) 10.1016/0022-5096(90)90005-o

[46]

A new approach to the application of Mori-Tanaka's theory in composite materials

Y. Benveniste

Mechanics of Materials 1987 10.1016/0167-6636(87)90005-6

[47]

Iwakuma "Composites with periodic microstructure" Comput Struct (1983) 10.1016/0045-7949(83)90142-6

[48]

Mura (1982)

[49]

Steif "An energy method for calculating the stiffness of aligned short-fiber composites" Mech Mater (1987) 10.1016/0167-6636(87)90011-1

[50]

Harper "A note on the effect of voids upon the hygral and mechanical properties of AS4/3502 graphite/epoxy" J Compos Mater (1987) 10.1177/002199838702100306

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References

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Published: Oct 01, 2005
Vol/Issue: 65(13)
Pages: 1964-1981
License: View

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Cite This Article

Hansong Huang, Ramesh Talreja (2005). Effects of void geometry on elastic properties of unidirectional fiber reinforced composites. Composites Science and Technology, 65(13), 1964-1981. https://doi.org/10.1016/j.compscitech.2005.02.019

Effects of void geometry on elastic properties of unidirectional fiber reinforced composites

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