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1

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Application of dipmeter data in structural interpretation, Niger Delta (1992)

J. T. Adams ; J. K. Ayodele ; J. Bedford ; [et al.]

Geological Society, London & Blackwell Scientific Publications

In: Geological Applications of Wireline Logs II, London, Geological Society, London & Blackwell Scientific Publications, vol. 65, pp. 247-264

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Publication Date: 1992

Keywords: Borehole geophys. ; DIP ; Geol. aspects ; 16 ; (Structural ; Geology) ; 20 ; (Geophysics, ; Applied) ; Africa ; Akaso ; Field ; borehole ; breakouts ; caliper ; logging ; Cawthorne ; Channel ; Field ; dipmeter ; logging ; extension ; tectonics ; faults ; gamma-ray ; methods ; interpretation ; Niger ; Delta ; Nigeria ; oil ; and ; gas ; fields ; stress ; structural ; geology ; tectonics ; three-dimensional ; models ; well ; logs ; well-logging ; West ; Africa

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BIBLIOGRAPHY SEISMOLOGY

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Dimensional scaling for impact cratering and perforation (1995)

Atkinson, Dale ; Watts, Alan J.

In: CASI

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Publication Date: 2013-08-31

Description: POD Associates have revisited the issue of generic scaling laws able to adequately predict (within better than 20 percent) cratering in semi-infinite targets and perforations through finite thickness targets. The approach used was to apply physical logic for hydrodynamics in a consistent manner able to account for chunky-body impacts such that the only variables needed are those directly related to known material properties for both the impactor and target. The analyses were compared and verified versus CTH hydrodynamic code calculations and existing data. Comparisons with previous scaling laws were also performed to identify which (if any) were good for generic purposes. This paper is a short synopsis of the full report available through the NASA Langley Research Center, LDEF Science Office.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA. Langley Research Center, LDEF: 69 Months in Space. Third Post-Retrieval Symposium, Part 1; p 523-535

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3

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Environment modelling in near Earth space: Preliminary LDEF results (1992)

Allbrooks, M. ; Wagner, J. D. ; Atkinson, D. R. ; [et al.]

In: CASI

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Publication Date: 2013-08-29

Description: Hypervelocity impacts by space debris cause not only local cratering or penetrations, but also cause large areas of damage in coated, painted or laminated surfaces. Features examined in these analyses display interesting morphological characteristics, commonly exhibiting a concentric ringed appearance. Virtually all features greater than 0.2 mm in diameter possess a spall zone in which all of the paint was removed from the aluminum surface. These spall zones vary in size from approximately 2 - 5 crater diameters. The actual craters in the aluminum substrate vary from central pits without raised rims, to morphologies more typical of craters formed in aluminum under hypervelocity laboratory conditions for the larger features. Most features also possess what is referred to as a 'shock zone' as well. These zones vary in size from approximately 1 - 20 crater diameters. In most cases, only the outer-most layer of paint was affected by this impact related phenomenon. Several impacts possess ridge-like structures encircling the area in which this outer-most paint layer was removed. In many ways, such features resemble the lunar impact basins, but on an extremely reduced scale. Overall, there were no noticeable penetrations, bulges or spallation features on the backside of the tray. On Row 12, approximately 85 degrees from the leading edge (RAM direction), there was approximately one impact per 15 cm(exp 2). On the trailing edge, there was approximately one impact per 72 cm(exp 2). Currently, craters on four aluminum experiment trays from Bay E09, directly on the leading edge are being measured and analyzed. Preliminary results have produced more than 2200 craters on approximately 1500 cm(exp 2) - or approximately 1 impact per 0.7 cm(exp 2).

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: Lunar and Planetary Inst., Twenty-Third Lunar and Planetary Science Conference; p 7-11

Format: text

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NASA TECHNICAL REPORTS

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A fresh look at crater scaling laws for normal and oblique hypervelocity impacts (1993)

Lapin, S. L. ; Coombs, C. R. ; Watts, A. J. ; [et al.]

In: Other Sources

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Publication Date: 2019-01-25

Description: With the concomitant increase in the amount of man-made debris and an ever increasing use of space satellites, the issue of accidental collisions with particles becomes more severe. While the natural micrometeoroid population is unavoidable and assumed constant, continued launches increase the debris population at a steady rate. Debris currently includes items ranging in size from microns to meters which originated from spent satellites and rocket cases. To understand and model these environments, impact damage in the form of craters and perforations must be analyzed. Returned spacecraft materials such as those from LDEF and Solar Max have provided such a testbed. From these space-aged samples various impact parameters (i.e., particle size, particle and target material, particle shape, relative impact speed, etc.) may be determined. These types of analyses require the use of generic analytic scaling laws which can adequately describe the impact effects. Currently, most existing analytic scaling laws are little more than curve-fits to limited data and are not based on physics, and thus are not generically applicable over a wide range of impact parameters. During this study, a series of physics-based scaling laws for normal and oblique crater and perforation formation has been generated into two types of materials: aluminum and Teflon.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: Lunar and Planetary Inst., Twenty-Fourth Lunar and Planetary Science Conference. Part 3: N-Z; p 1497-1498

Format: text

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5

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LDEF data correlation to existing NASA debris environment models (1992)

Atkinson, Dale R. ; Allbrooks, Martha K. ; Watts, Alan J.

In: Other Sources

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Publication Date: 2019-01-25

Description: The Long Duration Exposure Facility (LDEF) was recovered in January 1990, following 5.75 years exposure of about 130 sq. m to low-Earth orbit. About 25 sq. m of this surface area was aluminum 6061 T-6 exposed in every direction. In addition, about 17 sq. m of Scheldahl G411500 silver-Teflon thermal control blankets were exposed in 9 of the 12 directions. Since the LDEF was gravity gradient stabilized and did not rotate, the directional dependence of the flux can be easily distinguished. During the disintegration of the LDEF, all impact features larger than 0.5 mm into aluminum were documented for diameters and locations. In addition, the diameters and locations of all impact features larger than 0.3 mm into Scheldahl G411500 thermal control blankets were also documented. This data, along with additional information collected from LDEF materials will be compared with current meteoroid and debris models. This comparison will provide a validation of the models and will identify discrepancies between the models and the data.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA. Langley Research Center, LDEF: 69 Months in Space. First Post-Retrieval Symposium, Part 1; p 567

Format: text

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6

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LDEF data: Comparisons with existing models (1993)

Watts, Alan J. ; Coombs, Cassandra R. ; Wagner, John D. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The relationship between the observed cratering impact damage on the Long Duration Exposure Facility (LDEF) versus the existing models for both the natural environment of micrometeoroids and the man-made debris was investigated. Experimental data was provided by several LDEF Principal Investigators, Meteoroid and Debris Special Investigation Group (M&D SIG) members, and by the Kennedy Space Center Analysis Team (KSC A-Team) members. These data were collected from various aluminum materials around the LDEF satellite. A PC (personal computer) computer program, SPENV, was written which incorporates the existing models of the Low Earth Orbit (LEO) environment. This program calculates the expected number of impacts per unit area as functions of altitude, orbital inclination, time in orbit, and direction of the spacecraft surface relative to the velocity vector, for both micrometeoroids and man-made debris. Since both particle models are couched in terms of impact fluxes versus impactor particle size, and much of the LDEF data is in the form of crater production rates, scaling laws have been used to relate the two. Also many hydrodynamic impact computer simulations were conducted, using CTH, of various impact events, that identified certain modes of response, including simple metallic target cratering, perforations and delamination effects of coatings.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA. Langley Research Center, LDEF: 69 Months in Space. Second Post-Retrieval Symposium, Part 2; p 619-664

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7

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Damage areas on selected LDEF aluminum surfaces (1993)

Watts, Alan J. ; Allbrooks, Martha K. ; Wagner, John D. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: With the U.S. about to embark on a new space age, the effects of the space environment on a spacecraft during its mission lifetime become more relevant. Included among these potential effects are degradation and erosion due to micrometeoroid and debris impacts, atomic oxygen and ultraviolet light exposure as well as material alteration from thermal cycling, and electron and proton exposure. This paper focuses on the effects caused by micrometeoroid and debris impacts on several LDEF aluminum plates from four different bay locations: C-12, C-10, C-01, and E-09. Each plate was coated with either a white, black, or gray thermal paint. Since the plates were located at different orientations on the satellite, their responses to the hypervelocity impacts varied. Crater morphologies range from a series of craters, spall zones, domes, spaces, and rings to simple craters with little or no spall zones. In addition, each of these crater morphologies is associated with varying damage areas, which appear to be related to their respective bay locations and thus exposure angles. More than 5% of the exposed surface area examined was damaged by impact cratering and its coincident effects (i.e., spallation, delamination and blow-off). Thus, results from this analysis may be significant for mission and spacecraft planners and designers.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA. Langley Research Center, LDEF: 69 Months in Space. Second Post-Retrieval Symposium, Part 2; p 595-618

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8

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Dimensional scaling for impact cratering and perforation (1993)

Watts, Alan ; Atkinson, Dale ; Rieco, Steve

In: CASI

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Publication Date: 2019-06-28

Description: This report summarizes the development of two physics-based scaling laws for describing crater depths and diameters caused by normal incidence impacts into aluminum and TFE Teflon. The report then describes equations for perforations in aluminum and TFE Teflon for normal impacts. Lastly, this report also studies the effects of non-normal incidence on cratering and perforation.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-CR-188259 , NAS 1.26:188259

Format: application/pdf

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