Interlaminar Deformation Along the Cylindrical Surface of a Hole in Laminated Composites—Experimental Analysis by Moiré Interferometry

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Volume 23, Issue 3 (July 2001)

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ISSN: 0884-6804
Page Count: 11

Interlaminar Deformation Along the Cylindrical Surface of a Hole in Laminated Composites—Experimental Analysis by Moiré Interferometry
Mollenhauer, DH
Materials research engineer, AFRL/MLBC, OH

Reifsnider, KL
Professor, Virginia Polytechnic Institute and State University, VA

Abstract

The deformation along cylindrical surfaces of holes in tensile-loaded specimens was measured using new moiré interferometry techniques. The techniques were developed and validated using an isotropic, homogeneous aluminum specimen. Two composite tensile specimens, fabricated from IM7/5250-4 pre-preg with ply lay-ups of [0°4∕90°4]3s and [+30°2∕−30°2∕90°4]3s, were then examined using the new techniques. Circumferential and thickness direction displacement fringe patterns (each 3° wide) were assembled into 90°-wide mosaics around the hole periphery for both composite specimens. Distributions of strain were calculated with high confidence on a sub-ply basis at selected angular locations. The measured strain behavior was complex. Ply-by-ply trends were revealed. Large ply-related variations in the circumferential strain were observed at certain angular locations around the periphery of the holes in both composites. Extremely large ply-by-ply variations of the shear strain were also documented in both composites. Peak values of shear strain approached 30 times the applied far-field axial strain. Residual viscoelastic shearing strains were recorded in regions of large load-induced shearing strains. Large ply-group related variations in the thickness direction strain were observed in the [+30°, were then examined using the new techniques. Circumferential and thickness direction displacement fringe patterns (each 3° wide) were assembled into 90°-wide mosaics around the hole periphery for both composite specimens. Distributions of strain were calculated with high confidence on a sub-ply basis at selected angular locations. The measured strain behavior was complex. Ply-by-ply trends were revealed. Large ply-related variations in the circumferential strain were observed at certain angular locations around the periphery of the holes in both composites. Extremely large ply-by-ply variations of the shear strain were also documented in both composites. Peak values of shear strain approached 30 times the applied far-field axial strain. Residual viscoelastic shearing strains were recorded in regions of large load-induced shearing strains. Large ply-group related variations in the thickness direction strain were observed in the [+30°2∕−30°2∕90°4]3s specimen. An important large-scale trend was observed in which the thickness direction strain tended to be more tensile near the outside faces of the laminate than near the mid-ply region.

Keywords:
polymer matrix composites, moiré interferometry, interlaminar deformation, open holes

Paper ID: CTR10552J
DOI: 10.1520/CTR10552J
ASTM International is a member of CrossRef.

Author Title Interlaminar Deformation Along the Cylindrical Surface of a Hole in Laminated Composites—Experimental Analysis by Moiré Interferometry Symposium , 0000-00-00 Committee D30

		Home Journals STPs Manuals Topics Subscriptions/Pricing Digital Library / Journal of Composites Technology and Research (JCTR) / Citation Page Volume 23, Issue 3 (July 2001) Click here to download this paper now for $25 PDF (584K) View License Agreement ISSN: 0884-6804 Page Count: 11 Interlaminar Deformation Along the Cylindrical Surface of a Hole in Laminated Composites—Experimental Analysis by Moiré Interferometry Mollenhauer, DH Materials research engineer, AFRL/MLBC, OH Reifsnider, KL Professor, Virginia Polytechnic Institute and State University, VA Abstract The deformation along cylindrical surfaces of holes in tensile-loaded specimens was measured using new moiré interferometry techniques. The techniques were developed and validated using an isotropic, homogeneous aluminum specimen. Two composite tensile specimens, fabricated from IM7/5250-4 pre-preg with ply lay-ups of [0°4∕90°4]3s and [+30°2∕−30°2∕90°4]3s, were then examined using the new techniques. Circumferential and thickness direction displacement fringe patterns (each 3° wide) were assembled into 90°-wide mosaics around the hole periphery for both composite specimens. Distributions of strain were calculated with high confidence on a sub-ply basis at selected angular locations. The measured strain behavior was complex. Ply-by-ply trends were revealed. Large ply-related variations in the circumferential strain were observed at certain angular locations around the periphery of the holes in both composites. Extremely large ply-by-ply variations of the shear strain were also documented in both composites. Peak values of shear strain approached 30 times the applied far-field axial strain. Residual viscoelastic shearing strains were recorded in regions of large load-induced shearing strains. Large ply-group related variations in the thickness direction strain were observed in the [+30°, were then examined using the new techniques. Circumferential and thickness direction displacement fringe patterns (each 3° wide) were assembled into 90°-wide mosaics around the hole periphery for both composite specimens. Distributions of strain were calculated with high confidence on a sub-ply basis at selected angular locations. The measured strain behavior was complex. Ply-by-ply trends were revealed. Large ply-related variations in the circumferential strain were observed at certain angular locations around the periphery of the holes in both composites. Extremely large ply-by-ply variations of the shear strain were also documented in both composites. Peak values of shear strain approached 30 times the applied far-field axial strain. Residual viscoelastic shearing strains were recorded in regions of large load-induced shearing strains. Large ply-group related variations in the thickness direction strain were observed in the [+30°2∕−30°2∕90°4]3s specimen. An important large-scale trend was observed in which the thickness direction strain tended to be more tensile near the outside faces of the laminate than near the mid-ply region. Keywords: polymer matrix composites, moiré interferometry, interlaminar deformation, open holes Paper ID: CTR10552J DOI: 10.1520/CTR10552J ASTM International is a member of CrossRef. Author Title Interlaminar Deformation Along the Cylindrical Surface of a Hole in Laminated Composites—Experimental Analysis by Moiré Interferometry Symposium , 0000-00-00 Committee D30