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1

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Thermal-mechanical response of nearly opaque materials exposed to continuous radiation (1971)

Howe, J. T.

In: Other Sources

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Publication Date: 2011-08-16

Description: Thermal stress distribution and temperature profiles in nearly opaque spherical shell under radiant and convective heating flux

Keywords: THERMODYNAMICS AND COMBUSTION

Type: ; - ASTRONOMY 1969- TE

Format: text

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2

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Spectral radiative transfer approximations for multicomponent gas mixtures. (1967)

Sheaffer, Y. S. ; Howe, J. T.

In: Other Sources

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Publication Date: 2011-08-11

Description: Radiative flux and flux divergence for hot gas, considering spectral frequency, gas volume and spectral variation

Keywords: THERMODYNAMICS AND COMBUSTION

Type: JOURNAL OF QUANTITATIVE SPECTROSCOPY AND RADIATIVE TRANSFER

Format: text

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3

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Assessment of chemical nonequilibrium for massively ablating graphite. (1973)

Liu, T.-M. ; Lincoln, K. A. ; Howe, J. T.

In: Other Sources

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Publication Date: 2011-08-16

Description: Several types of artificial graphite have been irradiated by laser pulses in vacuum, and the composition of the resulting vapor cloud has been determined in situ by mass spectrometric techniques in order to gain information pertaining to nonequilibrium ablation of graphitic probes entering planetary atmospheres. Results are discussed in terms of variations in concentrations of carbon species from their equilibrium values, and plotted curves illustrate the effect of nonequilibrium ablation on radiative shielding for simulated Jupiter entry conditions.

Keywords: THERMODYNAMICS AND COMBUSTION

Type: AIAA Journal; 11; Aug. 197

Format: text

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4

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Thermal shielding by subliming volume reflectors in convective and intense radiative environments. (1973)

Howe, J. T. ; Weston, K. C. ; Green, M. J.

In: Other Sources

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Publication Date: 2011-08-16

Description: The behavior of dielectric materials having densely packed internal scattering centers subject to extreme convective and radiative environments is analyzed. Experiments have shown that these materials act as volume reflectors of incident radiation even when the exposed surface is being eroded by thermochemical ablation. The analysis was applied to interpret experiments of subliming Teflon models exposed to combined radiative and convective fluxes up to 1.7 kW/sq cm for several seconds. Results show that, although the exposed surface receded at an apparently steady rate, the internal temperature climbed continually, due to internal absorption of radiation and would have caused failure internally if the test duration were extended a few seconds. Thus, performance is time-limited by the internal absorption coefficient. Results were obtained for larger configurations and other materials. Typically, Teflon shells may withstand radiant fluxes up to 20 kW/sq cm for about 5 sec and fritted quartz up to 50 kW/sq cm for about 8 sec (corresponding to the Jupiter entry).

Keywords: THERMODYNAMICS AND COMBUSTION

Type: AIAA Journal; 11; July 197

Format: text

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5

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Lateral expansion of a laser-supported detonation wave in a gas. (1972)

Howe, J. T.

In: Other Sources

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Publication Date: 2011-08-16

Description: A model satisfying the conditions in the burnt (ionized) and ambient undisturbed gases is presented for the two-dimensional case of the absorption wave resulting from the interaction of a laser beam with the plasma it generates in the gas through which the beam propagates. The flowfield of the rarefaction wave resulting from the laser-supported detonation is discussed, along with the computed shock and flow deflection angles.

Keywords: THERMODYNAMICS AND COMBUSTION

Type: AIAA Journal; 10; Dec. 197

Format: text

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6

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Analysis of sublimation-cooled coated mirrors in convective and radiative environments. (1973)

Howe, J. T. ; Green, M. J.

In: Other Sources

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Publication Date: 2011-08-16

Description: Analytical solutions were obtained for the thermal response of a transpiration- or sublimation-cooled spherical mirror coating exposed to convective and radiative heating. The solutions allow unlimited spectral detail to be accounted for. Results indicate that transpiration-cooled thick coatings (1 cm) may withstand up to 10 kW/sq cm on a steady basis without excessive temperature rise for quartzlike materials with an internal absorption coefficient of 0.01 per cm. On a transient basis, fluxes up to 20 kW/sq cm can be accommodated for a second (cW laser exposure time), 4 kW/sq cm for 5 sec (planetary entry heating time), and of the order of MW/sq cm for millisecond times (short-duration laser bursts) without transpiration cooling for a material with an absorption coefficient of 0.1 per cm. Proportionately higher fluxes can be accommodated with lower absorption coefficients. Thermal stresses produced by the heat pulse are found to be high but within the strength of the materials. The regime in which meaningful solutions may be obtained is mapped in detail.

Keywords: THERMODYNAMICS AND COMBUSTION

Type: AIAA Journal; 11; Jan. 197

Format: text

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7

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Performance of reflecting silica heat shields during entry into Saturn and Uranus (1974)

Howe, J.

In: CASI

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Publication Date: 2016-06-07

Description: The performance of silica heat shields in the outer planet atmospheres is analyzed and described in a set of differential equations. Results are presented and discussed.

Keywords: COMPOSITE MATERIALS

Type: Dynatrend, Inc. Proc. of Outer Planet Probe Technol. Workshop, Sect. 1 through 11; 21 p

Format: application/pdf

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Overview

8

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Approximate temperature distribution for a diffuse, highly reflecting material. (1972)

Howe, J. T. ; Green, M. J. ; Weston, K. C.

In: Other Sources

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Publication Date: 2019-06-27

Description: The application of a 'two-flux' technique is considered for determining the reflective characteristics and approximate temperature distribution in highly backscattering materials characterized by a very small absorption coefficient. With respect to the transmitted internal radiation fields, the internal radiative emission is assumed to be negligible. A comparison of theory and experiment is presented.

Keywords: THERMODYNAMICS AND COMBUSTION

Type: AIAA Journal; 10; Sept

Format: text

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9

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Volume reflecting heat shields for entry into the giant planet atmospheres (1974)

Mcculley, L. D. ; Howe, J. T.

In: Other Sources

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Publication Date: 2019-07-13

Description: The performance of a volume reflecting or backscattering silica heat shield is examined for an entry probe into the severe radiative environments of Saturn, Uranus, and Jupiter. The governing equations for the material response are solved numerically and include the effects of temperature-dependent thermal properties, temperature- and wavelength-dependent radiative properties, and surface recession caused by thermochemical ablation. The influence of the scattering properties on backface temperature is examined, and results are presented which show the required heat-shield thickness for the entry trajectories selected.

Keywords: THERMODYNAMICS AND COMBUSTION

Type: AIAA PAPER 74-669 , Thermophysics and Heat Transfer Conference; Jul 15, 1974 - Jul 17, 1974; Boston, MA

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10

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Reflecting ablating heat shields for planetary entry. (1972)

Howe, J. T. ; Peterson, D. L. ; Nachtsheim, P. R.

In: Other Sources

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Publication Date: 2019-07-13

Description: Heat shielding for planetary entry probes of future Jovian and Venusian missions will encounter heating levels well beyond those previously experienced. These entries are typically dominated by radiative heating from the shock layer. This paper demonstrates the potential of reflecting this incident radiation diffusely from an ablating material. This technique contrasts with the absorption experienced by char-forming or graphitic ablators. Two dielectric materials, Teflon (polytetra-fluoroethylene) and boron nitride, are examined for their ablative performance, including reflection, in a combined convective- and radiative-heating environment. For Teflon, at the conditions obtained, superimposition of radiative heating upon a convective stream causes no additional increase in surface recession over the convective only results. For boron nitride, an excellent room-temperature reflector in the visible spectrum, a decrease in reflectivity from 90 to 55 percent is experienced when the surface undergoes sublimation at high temperatures. The process of reflection in each of these materials is described in terms of backscattering from crystals. The significance of a sizable reflection as a mode of energy accommodation is demonstrated for Venusian entries as a potential reduction in mass loss due to ablation.

Keywords: THERMODYNAMICS AND COMBUSTION

Type: AIAA PAPER 72-89 , American Institute of Aeronautics and Astronautics, Aerospace Sciences Meeting; Jan 17, 1972 - Jan 19, 1972; San Diego, CA

Format: text

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