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1

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Analytical/experimental correlations of failure modes in composites (1985)

Adams, D. F.

In: Other Sources

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Publication Date: 2011-08-19

Description: During the past decade, significant progress has been made in the development and refinement of finite element micromechanics analyses of unidirectional composite materials. The current status is summarized here, and example results are presented. These are correlated with available experimental data, and with scanning electron microscope observations.

Keywords: COMPOSITE MATERIALS

Format: text

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2

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Micromechanical predictions of crack initiation, propagation and crack growth resistance in boron/aluminum composites (1982)

Adams, D. F. ; Mahishi, J. M.

In: Other Sources

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Publication Date: 2011-08-18

Description: An elastoplastic, axisymmetric finite element model has been used to predict the initiation and propagation of a crack in a composite model consisting of a single broken boron fiber embedded in an annular sheath of aluminum matrix. The accuracy of the axisymmetric finite element model for crack problems has been established by solving the classical problem of a penny-shaped crack in a thick cylindrical rod under axial tension. Also, the stress intensity factors predicted by the present numerical model are compared with continuum results. A constant displacement boundary condition applied during an increment of crack growth permits a substantial amount of stable crack growth in the matrix material. The concept of Crack Growth Resistance Curves (KR-curves) has been used to determine the point of crack instability

Keywords: COMPOSITE MATERIALS

Type: Journal of Composite Materials; 16; Nov. 198

Format: text

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3

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Micromechanical predictions of crack propagation and fracture energy in a single fiber boron/aluminum model composite (1982)

Mahishi, J. M. ; Adams, D. F.

In: CASI

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Publication Date: 2019-06-28

Description: The axisymmetric finite element model and associated computer program developed for the analysis of crack propagation in a composite consisting of a single broken fiber in an annular sheath of matrix material was extended to include a constant displacement boundary condition during an increment of crack propagation. The constant displacement condition permits the growth of a stable crack, as opposed to the catastropic failure in an earlier version. The finite element model was refined to respond more accurately to the high stresses and steep stress gradients near the broken fiber end. The accuracy and effectiveness of the conventional constant strain axisymmetric element for crack problems was established by solving the classical problem of a penny-shaped crack in a thick cylindrical rod under axial tension. The stress intensity factors predicted by the present finite element model are compared with existing continuum results.

Keywords: COMPOSITE MATERIALS

Type: NASA-CR-168550 , UWME-DR-201-101-1

Format: application/pdf

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4

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Influence of damage on the thermal response of graphite-epoxy laminates (1984)

Adams, D. S. ; Herakovich, C. T.

In: Other Sources

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Publication Date: 2019-06-28

Description: A constrained-displacement finite-element approach for studying the influence of transverse cracks and delaminations on the thermal response of laminated composites is presented. Typical results are given in the form of percent-retention curves for the coefficient of thermal expansion as a function of crack density. Cross-ply and quasi-isotropic T300/5208 graphite-epoxy laminates are considered. It is shown that transverse cracks can have a significant influence on the coefficient of thermal expansion, but delaminations located symmetrically about the laminate midplane have no influence on thermal expansion.

Keywords: COMPOSITE MATERIALS

Type: Journal of Thermal Stresses (ISSN 0149-5739); 7; 1 19

Format: text

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5

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Stiffness reductions during tensile fatigue testing of graphite/epoxy angle-ply laminates (1982)

Odom, E. M. ; Adams, D. F.

In: CASI

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Publication Date: 2019-06-28

Description: Tensile fatigue data was generated under carefully controlled test conditions. A computerized data acquisition system was used to permit the measurement of dynamic modulus without interrupting the fatigue cycling. Two different 8-ply laminate configurations, viz, + or - 45 (2s) and + or - 67.5 (2s), of a T300/5208 graphite/epoxy composite were tested. The + or - 45 (2s) laminate did exhibit some modulus decay, although there was no well-defined correlation with applied stress level or number of cycles. The + or - 67.5 (2s) laminate did not exhibit any measurable modulus decay. Secondary effects observed included a small but distinct difference between modulus as measured statically and dynamically, a slight recovery of the modulus decay after a test interruption, and a significant viscoelastic (creep) response of the + or - 45 (2s) laminate during fatigue testing.

Keywords: COMPOSITE MATERIALS

Type: NASA-CR-166019 , NAS 1.26:166019 , UWME-DR-201-105-1

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6

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Characteristics of thermally-induced transverse cracks in graphite epoxy composite laminates (1983)

Herakovich, C. T. ; Adams, D. S. ; Bowles, D. E.

In: CASI

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Publication Date: 2019-06-28

Description: The characteristics of thermally induced transverse cracks in T300/5208 graphite-epoxy cross-ply and quasi-isotropic laminates were investigated both experimentally and analytically. The formation of transverse cracks and the subsequent crack spacing present during cool down to -250 F (116K) and thermal cycling between 250 and -250 F (116 and 394K) was investigated. The state of stress in the vicinity of a transverse crack and the influence of transverse cracking on the laminate coefficient of thermal expansion (CTE) was predicted using a generalized plane strain finite element analysis and a modified shear lag analysis. A majority of the cross-ply laminates experienced transverse cracking during the initial cool down to -250 F whereas the quasi-isotropic laminates remained uncracked. The in situ transverse strength of the 90 degree layers was more than 1.9 times greater than the transverse strength of the unidirectional 90 degree material for all laminates investigated.

Keywords: COMPOSITE MATERIALS

Type: NASA-TM-85429 , NAS 1.15:85429 , VPI-F-83-23

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7

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Three-dimensional elastoplastic stress analysis of unidirectional boron/aluminum composites (1982)

Mahishi, J. M. ; Adams, D. F.

In: CASI

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Publication Date: 2019-06-28

Description: A three dimensional elastoplastic finite element micromechanical model was developed to study the state of stress around a broken fibers in a unidirectional composite. A boron/aluminum composite consisting of 50 percent by volume of fibers in a square array and subjected to an axial loading is taken as a specific example. This loading in the fiber direction is applied in small increments, by prescribing increments of boundary displacement, until the first failure occurs. The effect of reduced material properties of the aluminum matrix material at elevated temperature is also studied. The results are presented in the form of stress contours and stress-strain plots.

Keywords: COMPOSITE MATERIALS

Type: NASA-CR-169796 , NAS 1.26:169796 , UWME-DR-201-107-1

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8

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Analysis of the stress state in an Iosipescu sheartest specimen (1983)

Adams, D. F. ; Walrath, D. E.

In: CASI

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Publication Date: 2019-07-13

Description: The state of stress in an Iosipescu shear test specimen is analyzed, utilizing a finite element computer program. The influence of test fixture configuration on this stress state is included. Variations of the standard specimen configuration, including notch depth, notch angle, and notch root radius are modeled. The purpose is to establish guidelines for a specimen geometry which will accommodate highly orthotropic materials while minimizing stress distribution nonuniformities. Materials ranging from isotropic to highly orthotropic are considered. An optimum specimen configuration is suggested, along with changes in the test fixture.

Keywords: COMPOSITE MATERIALS

Type: NASA-CR-176745 , NAS 1.26:176745 , UWME-DR-301-102-1

Format: application/pdf

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9

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Mechanical properties testing of candidate polymer matrix materials for use in high performance composites (1985)

Zimmerman, R. S. ; Adams, D. F.

In: CASI

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Publication Date: 2019-07-13

Description: The mechanical properties of four candidate neat resin systems for use in graphite/epoxy composites are characterized. This includes tensile and shear stiffnesses and strengths, coefficients of thermal and moisture expansion, and fracture toughness. Tests are conducted on specimens in the dry state and moisture-saturated, at temperatures of 23C, 82C and 121C. The neat resins tested are Hexcel HX-1504, Narmco 5245-C, American Cyanamid CYCOM 907, and Union Carbide ERX-4901A (MDA). Results are compared with those obtained for four other epoxy resins tested in a prior program, i.e., Hercules 3502, 2220-1, and 2220-3, and Ciba-Geigy Fibredux 914, as well as with available Hercules 3501-6 data. Scanning electron microscopic examination of fracture surfaces is performed to permit the correlation of observed failure modes with the environmental test conditions. A finite element micromechanics analysis is used to predict unidirectional composite response under various test conditions, using the measured neat resin properties as input data.

Keywords: COMPOSITE MATERIALS

Type: NASA-CR-177970 , NAS 1.26:177970 , UWME-DR-401-104-1

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10

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Iosipescu shear properties of graphite fabric/epoxy composite laminates (1985)

Adams, D. F. ; Walrath, D. E.

In: CASI

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Publication Date: 2019-07-13

Description: The Iosipescu shear test method is used to measure the in-plane and interlaminar shear properties of four T300 graphite fabric/934 epoxy composite materials. Different weave geometries tested include an Oxford weave, a 5-harness satin weave, an 8-harness satin weave, and a plain weave with auxiliary warp yarns. Both orthogonal and quasi-isotropic layup laminates were tested. In-plane and interlaminar shear properties are obtained for laminates of all four fabric types. Overall, little difference in shear properties attributable to the fabric weave pattern is observed. The auxiliary warp material is significantly weaker and less stiff in interlaminar shear parallel to its fill direction. A conventional strain gage extensometer is modified to measure shear strains for use with the Iosipescu shear test. While preliminary results are encouraging, several design iterations failed to produce a reliable shear transducer prototype. Strain gages are still the most reliable shear strain transducers for use with this test method.

Keywords: COMPOSITE MATERIALS

Type: NASA-CR-176316 , NAS 1.26:176316 , UWME-DR-501-103-1

Format: application/pdf

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