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Composites for Advanced Space Transportation Systems - (CASTS) (1979)

Davis, J. G., Jr.

In: Other Sources

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Publication Date: 2011-08-17

Description: The CASTS Project initiated to develop graphite fiber/polyimide matrix (GR/PI) composite structures with 589K operational capability for aerospace vehicles is described. Near term tasks include screening composites and adhesives for 589K service, developing fabrication procedures and specifications, developing design allowables test methods and data, design and test of structural elements, and construction of a full scale aft body flap for the space shuttle orbiter vehicle for ground testing. Far term tasks include research efforts directed at new materials, manufacturing procedures and design/analysis methodology. Specific results discussed include: (1) identification of four GR/PI composites and three PI adhesives with 589K service potential for periods ranging from 125 to 500 hours; (2) development of an adhesive formulation suitable for bonding reusable surface insulation (RSI) titles to 589K (GR/PI) substructure; (3) the capability to fabricate and nondestructively inspect laminates, hat section shaped stiffeners, honeycomb sandwich panels, and chopped fiber moldings; and (4) test methods for measuring design allowables at 117K.

Keywords: COMPOSITE MATERIALS

Type: Graphite/Polyimide Composites; p 5-18

Format: text

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Transverse microcracking in Celion 6000/PMR-15 graphite-polyimide (1979)

Mills, J. S. ; Herakovich, C. T. ; Davis, J. G., Jr.

In: CASI

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Publication Date: 2019-06-27

Description: The effects of room temperature tensile loading and five thermal loadings, in the range -320 F (-196C) to 625F (330CC), upon the development of transverse microcracks (TVM) in Celion 6000/PMR-15 graphite-polyimide laminates were investigated. Microcracks were observed using a replicating technique, microscopy and X-ray. The mechanical or thermal load at which microcracking initiates and the ply residual stresses were predicted using laminate analysis with stress- and temperature-dependent material properties.

Keywords: COMPOSITE MATERIALS

Type: PB80-169626 , VPI-E-79-35 , IR-17

Format: application/pdf

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Influence of specimen features on the strength of boron/epoxy-reinforced metal (1975)

Davis, J. G., Jr. ; Renieri, M. P. ; Herakovich, C. T.

In: Other Sources

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Publication Date: 2019-06-27

Description: Experimental results are presented which indicate that the ultimate tensile strength of aluminum reinforced with boron/epoxy composite may be significantly affected by the configuration of the specimen, and whether it was individually laid-up or cut from a larger piece of material. Coupon specimens which were individually laid-up exhibited strengths close to that predicted by theory. However, specimens cut from large plates had strengths about 38 percent of predicted values. All specimens had a one-half inch (12.7 mm) wide gage section. For individually laid-up specimens, it was found that specimens which were loaded through fiberglass tabs yielded higher ultimate tensile strengths than modified dogbone specimens with load introduction through stepped load-transfer regions. Machining along the edges was found to have little influence on the strength of the specimens used in this study.

Keywords: COMPOSITE MATERIALS

Type: ASME PAPER 75-MAT-C

Format: text

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Analysis of shear test method for composite laminates (1977)

Herakovich, C. T. ; Davis, J. G., Jr. ; Bergner, H. W., Jr.

In: CASI

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Publication Date: 2019-06-27

Description: An elastic plane stress finite element analysis of the stress distributions in four flat test specimens for in-plane shear response of composite materials subjected to mechanical or thermal loads is presented. The shear test specimens investigated include: slotted coupon, cross beam, losipescu, and rail shear. Results are presented in the form of normalized shear contour plots for all three in-plane stess components. It is shown that the cross beam, losipescu, and rail shear specimens have stress distributions which are more than adequate for determining linear shear behavior of composite materials. Laminate properties, core effects, and fixture configurations are among the factors which were found to influence the stress distributions.

Keywords: COMPOSITE MATERIALS

Type: NASA-CR-152704 , VPI-E-77-14 , IR-6

Format: application/pdf

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Graphite/Polyimide Composites (1979)

Davis, J. G., Jr. ; Dexter, H. B.

In: CASI

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Publication Date: 2019-07-13

Description: Technology developed under the Composites for Advanced Space Transportation System Project is reported. Specific topics covered include fabrication, adhesives, test methods, structural integrity, design and analysis, advanced technology developments, high temperature polymer research, and the state of the art of graphite/polyimide composites.

Keywords: COMPOSITE MATERIALS

Type: NASA-CP-2079 , L-12953 , Feb 28, 1979 - Mar 01, 1979; Hampton, VA; United States

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6

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Compressive strength of fiber-reinforced composite materials (1975)

Davis, J. G., Jr.

In: Other Sources

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Publication Date: 2019-07-27

Description: Results of an experimental and analytical investigation of the compressive strength of unidirectional boron-epoxy composite material are presented. Observation of fiber coordinates in a boron-epoxy composite indicates that the fibers contain initial curvature. Combined axial compression and torsion tests were conducted on boron-epoxy tubes and it was shown that the shear modulus is a function of axial compressive stress. An analytical model which includes initial curvature in the fibers and permits an estimate of the effect of curvature on compressive strength is proposed. Two modes of failure which may result from the application of axial compressive stress are analyzed - delamination and shear instability. Based on tests and analysis, failure of boron-epoxy under axial compressive load is due to shear instability.

Keywords: COMPOSITE MATERIALS

Type: Composite reliability; April 15, 16, 1974; Las Vegas, Nev

Format: text

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Fabrication and surface characterization of composite refractory compounds suitable for thermionic converters (1979)

Swanson, L. W. ; Davis, P. R.

In: CASI

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Publication Date: 2019-07-13

Description: The techniques of fabricating and characterizing the surface properties of electrode materials were investigated. The basic surface properties of these materials were studied with respect to their utilization as thermionic energy converter electrodes. Emphasis was placed on those factors (e.g, cesium disorption kinetic and mechanisms of low work function production) which are of primary concern to thermionic converter performance.

Keywords: COMPOSITE MATERIALS

Type: NASA-CR-163040 , JPL-9950-356

Format: application/pdf

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Tensile and compressive behavior of Borsic/aluminum (1977)

Davis, J. G., Jr. ; Herakovich, C. T. ; Viswanathan, C. N.

In: Other Sources

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Publication Date: 2019-07-13

Description: The results of an experimental investigation of the mechanical behavior of Borsic/aluminum are presented. Composite laminates were tested in tension and compression for monotonically increasing load and also for variable loading cycles in which the maximum load was increased in each successive cycle. It is shown that significant strain-hardening, and corresponding increase in yield stress, is exhibited by the metal matrix laminates. For matrix dominated laminates, the current yield stress is essentially identical to the previous maximum stress, and unloading is essentially linear with large permanent strains after unloading. For laminates with fiber dominated behavior, the yield stress increases with increase in the previous maximum stress, but the increase in yield stress does not keep pace with the previous maximum stress. These fiber dominated laminates exhibit smaller nonlinear strains, reversed nonlinear behavior during unloading, and smaller permanent strains after unloading. Compression results from sandwich beams and flat coupons are shown to differ considerably. Results from beam specimens tend to exhibit higher values for modulus, yield stress, and strength.

Keywords: COMPOSITE MATERIALS

Type: Conference on Composite materials: Testing and design; May 03, 1976 - May 04, 1976; Valley Forge, PA

Format: text

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9

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Composites for Advanced Space Transportation Systems (CASTS) (1979)

Davis, J. G., Jr.

In: CASI

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Publication Date: 2019-07-13

Description: A summary is given of the in-house and contract work accomplished under the CASTS Project. In July 1975 the CASTS Project was initiated to develop graphite fiber/polyimide matrix (GR/PI) composite structures with 589K (600 F) operational capability for application to aerospace vehicles. Major tasks include: (1) screening composites and adhesives, (2) developing fabrication procedures and specifications, (3) developing design allowables test methods and data, and (4) design and test of structural elements and construction of an aft body flap for the Space Shuttle Orbiter Vehicle which will be ground tested. Portions of the information are from ongoing research and must be considered preliminary. The CASTS Project is scheduled to be completed in September 1983.

Keywords: COMPOSITE MATERIALS

Type: NASA-TM-80038

Format: application/pdf

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