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Materials trade study for lunar/gateway missions (2003)

Anderson, B. M. ; Wilson, J. W. ; Tripathi, R. K. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The National Aeronautics and Space Administration (NASA) administrator has identified protection from radiation hazards as one of the two biggest problems of the agency with respect to human deep space missions. The intensity and strength of cosmic radiation in deep space makes this a 'must solve' problem for space missions. The Moon and two Earth-Moon Lagrange points near Moon are being proposed as hubs for deep space missions. The focus of this study is to identify approaches to protecting astronauts and habitats from adverse effects from space radiation both for single missions and multiple missions for career astronauts to these destinations. As the great cost of added radiation shielding is a potential limiting factor in deep space missions, reduction of mass, without compromising safety, is of paramount importance. The choice of material and selection of the crew profile play major roles in design and mission operations. Material trade studies in shield design over multi-segmented missions involving multiple work and living areas in the transport and duty phase of space mission's to two Earth-Moon co-linear Lagrange points (L1) between Earth and the Moon and (L2) on back side of the moon as seen from Earth, and to the Moon have been studied. It is found that, for single missions, current state-of-the-art knowledge of material provides adequate shielding. On the other hand, the choice of shield material is absolutely critical for career astronauts and revolutionary materials need to be developed for these missions. This study also provides a guide to the effectiveness of multifunctional materials in preparation for more detailed geometry studies in progress. c2003 COSPAR. Published by Elsevier Ltd. All rights reserved.

Keywords: Aerospace Medicine

Type: Advances in space research : the official journal of the Committee on Space Research (COSPAR); Volume 31; 11; 2383-8

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Temporal analysis of the October 1989 proton flare using computerized anatomical models (1993)

Cucinotta, F. A. ; Simonsen, L. C. ; Nealy, J. E. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: The GOES-7 time history data of hourly averaged integral proton fluxes at various particle kinetic energies are analyzed for the solar proton event that occurred between October 19 and 29, 1989. By analyzing the time history data, the dose rates which may vary over many orders of magnitude in the early phases of the flare can be estimated as well as the cumulative dose as a function of time. Basic transport calculations are coupled with detailed body organ thickness distributions from computerized anatomical models to estimate dose rates and cumulative doses to 20 critical body organs. For a 5-cm-thick water shield, cumulative skin, eye, and blood-forming-organ dose equivalents of 1.27, 1.23, and 0.41 Sv, respectively, are estimated. These results are approximately 40-50 percent less than the widely used 0- and 5-cm slab dose estimates. The risk of cancer incidence and mortality are also estimated for astronauts protected by various water shield thicknesses.

Keywords: AEROSPACE MEDICINE

Type: Radiation Research (ISSN 0033-7587); 133; 1; p. 1-11.

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Shielding from Solar Particle Event Exposures in Deep Space (1999)

Chang, C. K. ; Kim, M. Y. ; Simonsen, L. C. ; [et al.]

In: CASI

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Publication Date: 2010-03-15

Description: The physical composition and intensities of solar particle event exposures or sensitive astronaut tissues are examined under conditions approximating an astronaut in deep space. Response functions for conversion of particle fluence into dose and dose equivalent averaged over organ tissue, are used to establish significant fluence levels and the expected dose and dose rates of the most important events from past observations. The BRYNTRN transport code is used to evaluate the local environment experienced by sensitive tissues and used to evaluate bioresponse models developed for use in tactical nuclear warfare. The present results will help to the biophysical aspects of such exposure in the assessment of RBE and dose rate effects and their impact on design of protection systems for the astronauts. The use of polymers as shielding material in place of an equal mass of aluminum would prowide a large safety factor without increasing the vehicle mass. This safety factor is sufficient to provide adequate protection if a factor of two larger event than has ever been observed in fact occurs during the mission.

Keywords: Solar Physics

Type: Radiation Measurements (ISSN 1350-4487); Volume 30; 361-382

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Radiation exposure for human Mars exploration (2000)

Dicello, J. F. ; Kim, M. H. ; Simonsen, L. C. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-24

Description: One major obstacle to human space exploration is the possible limitations imposed by the adverse effects of long-term exposure to the space environment. Even before human space flight began, the potentially brief exposure of astronauts to the very intense random solar energetic particle events was of great concern. A new challenge appears in deep-space exploration from exposure to the low-intensity heavy-ion flux of the galactic cosmic rays since the missions are of long duration, and accumulated exposures can be high. Because cancer induction rates increase behind low to moderate thicknesses of aluminum shielding, according to available biological data on mammalian exposures to galactic cosmic ray-like ions, aluminum shield requirements for a Mars mission may be prohibitively expensive in terms of mission launch costs. Alternative materials for vehicle construction are under investigation to provide lightweight habitat structures with enhanced shielding properties. In the present paper, updated estimates for astronaut exposures on a Mars mission are presented and shielding properties of alternative materials are compared with aluminum.

Keywords: Lunar and Planetary Science and Exploration

Type: Health physics (ISSN 0017-9078); Volume 79; 5; 515-25

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Martian regolith as space radiation shielding (1991)

Simonsen, L. C. ; Nealy, J. E. ; Wilson, J. W. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: Mars exploration crews will be exposed to such high radiation dosages in route from earth that as to sharply reduce the allowable dose they should receive while on the Martian surface. An account is presently given of the possibility of using Martian regolith as crew shielding to maintain very low short-term dose limits. NASA-Langley's nucleon and heavy-ion transport computer codes are used to predict the propagation and interaction of the free-space nucleons and heavy ions through the Martian atmosphere and then through various thicknesses of regolith. The largest reduction in dose occurs in the first 15-20 cm of regolith material.

Keywords: LUNAR AND PLANETARY EXPLORATION

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 28; 7

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Approach and Issues Relating to Shield Material Design to Protect Astronauts from Space Radiation (2001)

Miller, J. ; Kim, M. H. ; Thibeault, S. A. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-23

Description: One major obstacle to human space exploration is the possible limitations imposed by the adverse effects of long-term exposure to the space environment. Even before human spaceflight began, the potentially brief exposure of astronauts to the very intense random solar energetic particle (SEP) events was of great concern. A new challenge appears in deep space exploration from exposure to the low-intensity heavy-ion flux of the galactic cosmic rays (GCR) since the missions are of long duration and the accumulated exposures can be high. Since aluminum (traditionally used in spacecraft to avoid potential radiation risks) leads to prohibitively expensive mission launch costs, alternative materials need to be explored. An overview of the materials related issues and their impact on human space exploration will be given.

Keywords: Composite Materials

Type: Materials and Design (ISSN 0261-3069); Volume 22; 541-554

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Improved Spacecraft Materials for Radiation Shielding (1999)

Thibeault, S. A. ; Wilson, J. W. ; Singleterry, R. C. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: In the execution of this proposal, we will first examine current and developing spacecraft materials and evaluate their ability to attenuate adverse biological mutational events in mammalian cell systems and reduce the rate of cancer induction in mice harderian glands as a measure of their protective qualities. The HZETRN code system will be used to generate a database on GCR attenuation in each material. If a third year of funding is granted, the most promising and mission-specific materials will be used to study the impact on mission cost for a typical Mars mission scenario as was planned in our original two year proposal at the original funding level. The most promising candidate materials will be further tested as to their transmission characteristics in Fe and Si ion beams to evaluate the accuracy of the HZETRN transmission factors. Materials deemed critical to mission success may also require testing as well as materials developed by industry for their radiation protective qualities (e.g., Physical Sciences Inc.) A study will be made of designing polymeric materials and composite materials with improved radiation shielding properties as well as the possible improvement of mission-specific materials.

Keywords: Spacecraft Design, Testing and Performance

Type: NASA Microgravity Materials Science Conference; 695-701; NASA/CP-1999-209092

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Radiation Analysis for the Human Lunar Return Mission (1997)

Jordan, W. ; Shinn, J. L. ; Kim, M. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: An analysis of the radiation hazards that are anticipated on an early Human Lunar Return (HLR) mission in support of NASA deep space exploration activities is presented. The HLR mission study emphasized a low cost lunar return to expand human capabilities in exploration, to answer fundamental science questions, and to seek opportunities for commercial development. As such, the radiation issues are cost related because the parasitic shield mass is expensive due to high launch costs. The present analysis examines the shield requirements and their impact on shield design.

Keywords: Solar Physics

Type: NASA-TP-3662 , NAS 1.60:3662 , L-17613

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Considerations Concerning the Development and Testing of In-situ Materials for Martian Exploration (2000)

Maahs, H. G. ; Simonsen, L. C. ; Kim, M.-H. Y. ; [et al.]

In: CASI

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Publication Date: 2018-06-02

Description: Natural Martian surface materials are evaluated for their potential use as radiation shields for manned Mars missions. The modified radiation fluences behind various kinds of Martian rocks and regolith are determined by solving the Boltzmann equation using NASA Langley s HZETRN code along with the 1977 Solar Minimum galactic cosmic ray environmental model. To make structural shielding composite materials from constituents of the Mars atmosphere and from Martian regolith for Martian surface habitats, schemes for synthesizing polyimide from the Mars atmosphere and for processing Martian regolith/polyimide composites are proposed. Theoretical predictions of the shielding properties of these composites are computed to assess their shielding effectiveness. Adding high-performance polymer binders to Martian regolith to enhance structural properties enhances the shielding properties of these composites because of the added hydrogenous constituents. Laboratory testing of regolith simulant/polyimide composites is planned to validate this prediction.

Keywords: Spacecraft Propulsion and Power

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Overview of HZETRN and BRNTRN Space Radiation Shielding Codes (1997)

Simonsen, L. C. ; Shinn, J. L. ; Wilson, John W. ; [et al.]

In: CASI

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Publication Date: 2018-06-02

Description: The NASA Radiation Health Program has supported basic research over the last decade in radiation physics to develop ionizing radiation transport codes and corresponding data bases for the protection of astronauts from galactic and solar cosmic rays on future deep space missions. The codes describe the interactions of the incident radiations with shield materials where their content is modified by the atomic and nuclear reactions through which high energy heavy ions are fragmented into less massive reaction products and reaction products are produced as radiations as direct knockout of shield constituents or produced as de-excitation products in the reactions. This defines the radiation fields to which specific devices are subjected onboard a spacecraft. Similar reactions occur in the device itself which is the initiating event for the device response. An overview of the computational procedures and data base with some applications to photonic and data processing devices will be given.

Keywords: Space Radiation

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