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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

Format: text

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Galactic and Solar Cosmic Ray Shielding in Deep Space (1997)

Tai, H. ; Thibeault, Shelia ; Kim, M. Y. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: An analysis of the radiation hazards in support of NASA deep space exploration activities is presented. The emphasis is on materials required for radiation protection shielding. Aluminum has been found to be a poor shield material when dose equivalent is used with exposure limits for low Earth orbit (LEO) as a guide for shield requirements. Because the radiation issues are cost related-the parasitic shield mass has high launch costs, the use of aluminum as a basic construction material is clearly not cost-effective and alternate materials need to be developed. In this context, polyethylene is examined as a potentially useful material and demonstrates important advantages as an alternative to aluminum construction. Although polyethylene is useful as a shield material, it may not meet other design criteria (strength, stability, thermal); other polymer materials must be examined.

Keywords: Solar Physics

Type: NASA-TP-3682 , NAS 1.60:3682 , L-17634

Format: application/pdf

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