Effects of material and stacking sequence on behavior of composite plates with holes

Daniel, I. M.; Rowlands, R. E.; Whiteside, J.

doi:10.1007/bf02324853

Cited by 52 publications

(15 citation statements)

References 7 publications

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“…The segregation of 0° and 90° plys caused a 20% increase in fracture toughness over the alternating ply lay-up sequence. This is quite different from a previously noted dependence of composite strength on lay-up sequence [6,7] , in that the unnotched composite tensile performance for the present study was totally unaffected by this change in sequence. The prior work, on resin matrix composites, was explained in terms of the generation of high interlaminar stresses due to the differences in Poisson's ratio between the various plys.…”

Section: Discussioncontrasting

confidence: 80%

The Effect of Ply Lay-Up Sequence on the Fracture Toughness of Boron Aluminum

Prewo¹

1978

Journal of Composite Materials

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The fracture toughness of 0/90° cross ply boron reinforced aluminum composites has been investigated using prenotched compact tension and center notched tensile specimens. The effects on fracture toughness of specimen geometry, the relative numbers of 0° and 90° plys, and the lay-up sequence, have been measured. Ply lay-up sequence has been shown to affect fracture morphology and in turn alter the value of toughness. This has been related to the degree of matrix deformation which can take place to blunt the advancing crack. The relative numbers of 0° and 90° plys has been shown to be the major controlling factor and simple calculations based on a rule of mixtures approach provide reasonable agreement with the experimental data.

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Section: Discussioncontrasting

confidence: 80%

The Effect of Ply Lay-Up Sequence on the Fracture Toughness of Boron Aluminum

Prewo¹

1978

Journal of Composite Materials

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“…Having characterized the basic behavior, Rowlands, Daniel and Whiteside [17], and Daniel, Rowlands and Whiteside [18], described the effect of geometry and loading, and material and stacking sequence respectively, on laminates with cutouts. The results indicate that failure occurred off the axis perpendicular to load application where interlaminar shear and normal stress are maximum and where circumferential normal and shear strain increase nonlinearly with increased load.…”

Section: Review Of Literaturementioning

confidence: 99%

“…Near the hole boundary, the matrix is well above its failure strain, 0.0036 cm/cm, and the circumferential strain is well above the analytical buckling strain of a plate without a hole. The ability of the composite to support such high strains locally is due to the nonuniform strain gradient decaying radially away from 'the hole that confines the high strains to a small volume of material [18].…”

Section: Strain Gage Patternsmentioning

confidence: 99%

The Compressive Failure of Graphite/Epoxy Plates with Circular Holes

Chiao¹,

Reifsnider²,

Sendeckyj³

et al. 1981

J. Compos. Technol. Res.

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“…Strain gage, moiré and birefringent coating were synthetically utilized in the work of Rowlands et al [1,2]. Mollenhauer et al used moiré interferometry to investigate the interlaminar deformation along the cylindrical surface of a hole in composite laminates plate [3].…”

Section: Introductionmentioning

confidence: 99%