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Overview of the Natural Space Environment and ESA, JAXA, and NASA Materials Flight Experiments

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Abstract

Space environmental effects on materials are very severe and complex because of the synergistic interaction of orbital environments such as high-energy radiation particles, atomic oxygen, micrometeoroids, orbital debris, and ultraviolet irradiation interacting synergistically, along with thermal exposure. In addition, surface degradation associated with contamination can negatively impact optics performance. Materials flight experiments are critical to understanding the engineering performance of materials exposed to specific space environments. Likewise, the spacecraft designer must have an understanding of the specific environment in which a spacecraft will operate, enabling appropriate selection of materials to maximize engineering performance, increase mission lifetimes, and reduce risk. This article will present a methodology for assessing the engineering performance of materials baselined for a specific spacecraft or mission. In addition, an overview of the space environment, from low Earth orbit to interplanetary space, will be provided along with an overview on the effects of the space environment on materials performance. The majority of this article is devoted to materials flight experiments from the European Space Agency (ESA), the Japan Aerospace Exploration Agency (JAXA), and from the National Aeronautics and Space Administration (NASA). Some of the experiments reviewed include ESA’s Materials Exposure and Degradation Experiment on the International Space Station (ISS), JAXA’s Micro-Particles Capturer and Space Environment Exposure Device experiments on the ISS Service Module and on the ISS Japanese Experiment Module Exposed Facility, and NASA’s Long Duration Exposure Facility satellite and the Materials International Space Station Experiment series flown on the exterior of ISS.

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References

  1. B.F. James, O.W. Norton, M.B. Alexander, The Natural Space Environment: Effects on Spacecraft, NASA RP-1350 (Marshall Space Flight Center, AL, November 1994).

  2. V.L. Piscane, The Space Environment and Its Effects on Space Systems (AIAA Education Series, 2008).

  3. D. Hastings, H. Garrett, Spacecraft Environment Interactions (Cambridge Atmospheric and Space Science Series, 2004).

  4. A.C. Tribble, The Space Environment, Implication for Spacecraft Design, Revised and Expanded Edition (Princeton University Press, NJ, 2003).

    Google Scholar 

  5. http://see.msfc.nasa.gov/dmia.htm/dmia.htm

  6. http://www.spenvis.oma.be/

  7. Proc. of the Hubble Space Telescope Solar Array Workshop, ESA-WWP-77, 1995.

  8. Post-flight Investigations on Thermal Control Material from HST, M. Moser, C.O.A. Semprimoschnig, M.R.J. van Eesbeek, R. Pippan, Proc. of the 10th ISMSE & the 8th ICPMSE, Collioure, France, 19–23 June 2006 (ESA SP-616, September 2006).

  9. EURECA the European Retrievable Carrier; ESA-WPP-069, April 1994.

  10. Preliminary Investigations into UHCRE Thermal Control Materials, F. Levadou, M. Frogatt, M. Rott, E. Schneider, LDEF—69 Months in Space, First Post-Retrieval Symposium, NASA CP-3134, pp. 875–898, 1991.

  11. J.P. Schwanethal, N. McBride, S.F. Green, J.A.M. McDonnell, G. Drolshagen, in Proc. 4th European Conference on Space Debris (ESA SP-587) (ESA/ESOC, Darmstadt, Germany, 18–20 April 2005).

  12. J. Kuitunen, G. Drolshagen, J.A.M. McDonnell, H. Svedhem, M. Leese, H. Mannermaa, M. Kaipiainen, V. Sipinen, in Proc. Third European Conference on Space Debris, 19–21 March 2001.

  13. A.P. Tighe, M. van Eesbeek, S. Duzellier, M. Dinguirard, D. Falguere, C. Pons, V. Inguimbert, C. Durin, S. Gabriel, D. Goulty, G. Roberts, Preliminary Flight Data from the Materials Exposure and Degradation Experiment (ICPMSE-9, Toronto, Canada, May 2008).

  14. A. Mohammadzadeh, H. Evans, P. Nieminen, E. Daly, P. Vuilleumier, P. Bühler, C. Eggel, IEEE Trans. Nuc. Sci. 50 (6), 2272 (2003).

    Google Scholar 

  15. H. Evans, A. Mohammadzadeh, P. Nieminen, E. Daly, P. Vuilleumier, P. Bühler, C. Eggel, Adv. Space Res. 42, 1527 (2008).

    Google Scholar 

  16. M. Dinguirard, J.C. Mandeville, M. van Eesbeek, A.P. Tighe, C. Durin, A. Chambers, S. Gabriel, D. Goulty, G. Roberts, Materials Exposure and Degradation Experiment (MEDET) (AIAA-2001-5070, ISS Utilization Conference, October 2001).

  17. C. White, A. Chambers, G. Roberts, Screen Printed Carbon Films for Atomic Oxygen Measurement, 10th ISMSE (ESA SP-616, Collioure, France, September 2006).

  18. Space Environments and Effects System; www.sees.tksc.jaxa.jp.

  19. M. Suzuki, Proc. of International Symposium on SM/MPAC&SEED Experiment, Japan, 2008 (JAXA-SP-08-015E, 2009), pp. 1–4.

  20. D.E. Brinza, S.Y. Chung, T.K. Minton, R.H. Liang, “Final report on the NASA/JPL Evaluation of Oxygen Interactions with Materials-3 (EOIM-3)” (NASA CR-198865, 1994).

  21. Y. Kimoto, Proc. Int. Symp. on SM/MPAC& SEED Experiment, Japan, 2008 (JAXA-SP-08-015E, 2009), pp. 5–10.

  22. T. Yoshiaki, I. Kichiro, N. Yoichi, K. Chiaki, I. Jun’ichiro, K. Keisuke, K. Yukihito, F. Kiyoshi, Y. Yukiko, Proceedings of the 22nd Space Sciences and Technology Conference (2000), pp. 1455–1459.

  23. K. Koga, T. Goka, H. Matsumoto, H. Koshishi, Y. Kimoto, T. Kanamori, C. Kamakura, M. Ito, M. Endo, in Solar-Terrestrial Magnetic Activity and Space Environment, COSPAR Colloquia Series, H. Wang, R. Xu, Eds. (Pergamon Press, 2002), 14, pp. 365–366.

  24. M.J. Neish, S. Kibe, H. Yano, S.P. Deshpande, K. Morishige, Proc. Fourth European Conference on Space Debris, Darmstadt, Germany, 18 –20 April 2005 (ESA SP-587, August 2005).

  25. I. Yamagata, Y. Kimoto, E. Miyazaki, J. Ishizawa, H. Shimamura, N. Baba, K. Imagawa, M. Suzuki, in Proc. 10th Int. Symp. on “Materials in a Space Environment” (ISMSE) and 8th International Space Conference on “Protection of Materials and Structures from the Space Environment” (ICPMSE, June 2006).

  26. I. Fumikazu, I. Kichiro, in Proc. 9th Symp. of Materials in a Space Environment (June, 2003), pp. 589–594.

  27. Y. Kimoto, I. Yamagata, J. Ishizawa, E. Miyazaki, N. Baba, M. Kato, Japanese Space Materials Exposure Experiment Utilizing Inter -national Space Station (IAC-06-B4.3.08, 57th IAC, 2006).

    Google Scholar 

  28. Y. Kimoto, K. Yano, J. Ishizawa, E. Miyazaki, I. Yamagata, in Proc. 10th Int. Symp. on “Materials in a Space Environment” (ISMSE), and 8th Int. Space Conference on “Protection of Materials and Structures from the Space Environment” (ICPMSE, June 2006).

  29. Y. Kimoto, K. Yano, J. Ishizawa, E. Miyazaki, I. Yamagata, J. Spacecr. Rockets 46, 22 (2009).

    Google Scholar 

  30. Proc. Int. Symp. on SM/MPAC&SEED Experiment, Japan, 2008 (JAXA-SP-08-015E, 2009), pp. 1–90; 121–160; 171–176.

  31. H. Matsumoto, T. Goka, K. Koga, S. Iwai, T. Uehara, O. Sato, S. Takagi, “Space Environment Data Acquisition equipment (SEDA) of the Exposed facility of Japanese Experimental module “Kibo” on the International Space Station (ISS)” (COSPAR Colloquium Beijing, 2001).

  32. E.M. Silverman, Space Environmental Effects on Spacecraft: LEO Materials Selection Guide, NASA CR-4661 (August 1995).

  33. SETAS Reference: Long Duration Exposure Facility (LDEF) Archive System, Technical Discipline Area: Materials, Summary of LDEF Contributions: http://setas-www.larc.nasa.gov/ LDEF/MATERIALS/mat_contrib.html

  34. H.G. Pippin, Analysis of Materials Flown on the Long Duration Exposure Facility: Summary of Results of the Materials Special Investigation Group, NASA CR-4664 (July 1995).

  35. H. Dursch, G. Bohnhoff-Hlavacek, D. Blue, P. Hansen, Analysis of Systems Hardware Flown on LDEF-New Findings and Comparison to Other Retrieved Spacecraft Hardware, NASA CR-4693 (September 1995).

  36. H.G. Pippin, Analysis of Silverized Teflon Thermal Control Material Flown on the Long Duration Exposure Facility, NASA CR-4663 (July 1995).

  37. R.L. O’Neal, E.B. Lightner, in Proc. LDEF-69 Months in Space, First Post-Retrieval Symp., Kissimmee, FL, 2–8 June 1991 (NASA CP 3134, Parts 1, 1991), pp. 3–48.

  38. A.F. Whitaker, J. Gregory, Eds., LDEF Materials Results for Spacecraft Applications, NASA CP-3257 (1994).

  39. SETAS Materials Web Reference, Long Duration Exposure Facility (LDEF) Archive System, Technical Discipline Area: Materials; http://setas-www.larc.nasa.gov/LDEF/TECH_ DISC/mat.html.

  40. R.J. Bourassa, J.R. Gillis, Solar Exposure of LDEF Experiment Trays, NASA CR-189554 (February 1992).

  41. B.A. Banks, L. Gebauer, in Proc. LDEF Materials Workshop 1991, NASA Langley Research Center, 19–22 November 1991.

  42. H.W. Dursch, W.S. Spear, E.A. Miller, G.L. Bohnhoff-Hlavacek, J. Edelamn, Analysis of Systems Hardware Flown on LDEF —Results of the Systems Special Investigation Group, NASA CR-189628 (April 1992).

  43. R.L. O’Neal, A.S. Levine, C.C. Kiser, Photographic Survey of the LDEF Mission, NASA SP-531 (1996).

  44. T. See, M. Allbrooks, D. Atkinson, C. Simon, M. Zolensky, “Meteoroid and Debris Impacts Features Documented on the Long Duration Exposure Facility,” (Preliminary Report Compiled by Members of the LDEF Meteoroid and Debris Special Investigation Group, NASA JSC 24608, August 1990).

  45. SETAS Materials Web Reference, Long Duration Exposure Facility (LDEF) Archive System, Overview; http://setas-www.larc. nasa.gov/LDEF/index.html.

  46. A.S. Levine, Ed., in Proceedings of a symposium held in Kissimmee, FL, 2–8 June 1991 (NASA CP 3134, Parts 1–3, 1991).

  47. A.S. Levine, Ed., in symposium proceedings, San Diego, CA, 1–5 June 1992 (NASA CP-3194, Parts 1–4, 1993).

  48. A.S. Levine, Ed., in symposium proceedings, Williamsburg, VA, 8–12 November 1993 (NASA CP-3194, Parts 1–3, 1993).

  49. B.A. Stein, P.R. Young, Ed., LDEF Materials Workshop 1991 (NASA CP-3162, 1992).

  50. K.K. de Groh, B.A. Banks, J.A. Dever, D.J. Jaworske, S.K. Miller, E.A. Sechkar, S.R. Panko, in Proc. Int. Symp. on “SM/MPAC&SEED Experiment,” Tsukuba, Japan, 10–11 March 2008 (JAXA-SP-08-015E, March 2009), pp. 91–119; and (NASA TM-2008-215482, December 2008).

  51. K.K. de Groh, B.A. Banks, C.E. McCarthy, R.N. Rucker, L.M. Roberts, L.A. Berger, “MISSE 2 PEACE Polymers Atomic Oxygen Erosion Experiment on the International Space Station,” High Performance Polymers 20 388–409 (2008).

  52. B.A. Banks, J.A. Backus, M.V. Manno, D.L. Waters, K.C. Cameron, K.K. de Groh, “Atomic Oxygen Erosion Yield Prediction for Spacecraft Polymers in Low Earth Orbit,” presented at the 11th International Symposium on Materials in Space Environment (ISMSE-11), held September 15–18 in Aix en Provence, France, NASA TM-2009-215812.

  53. A.H. Stambler, K.E. Inoshita, L.M. Roberts, C.E. Barbagallo, K.K. de Groh, B.A. Banks, “Ground-Laboratory to In-Space Atomic Oxygen Correlation for the PEACE Polymers,” in the Proceedings of the 9th International Conference: Protection of Materials and Structures from Space Environment, 1087, J.I. Kleiman, Ed. (AIP, Toronto, Canada, 2009), pp. 51–66.

  54. R.J. Walters, J.C. Garner, S.N. Lam, J.A. Vasquez, W.R. Braun, R.E. Ruth, J.H. Warner, S.R. Messenger, J.R. Lorentzen, R. Bruninga, P.P. Jenkins, J.M. Flatico, D.M. Wilt, M.F. Piszczor, L.C. Greer, M.J. Krasowski, Materials Science and Engineering B 116, 257–263 (2005).

  55. P.P. Jenkins, R.J. Walters, L.C. Greer, M.J. Krasowski, J.M. Flatico, R. Bruninga, D. Myre, J.R. Lorentzen, K. Crist, K. Edmondson, A. Boca, “In-Flight Performance Of III–V Multi-Junction Solar Cells From The Forward Technology Solar Cell Experiment,” Proceedings of the 33rd IEEE Photovoltaics Specialists Conference, May 11–16, 2008.

  56. J.A. Dever, S.K. Miller, E.A. Sechkar, T.N. Wittberg, High Perform. Polym. 20, 371 (2008).

    Google Scholar 

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Authors
  1. David L. Edwards
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  2. Adrian P. Tighe
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  3. Marc Van Eesbeek
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  4. Yugo Kimoto
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  5. Kim K. de Groh
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Edwards, D.L., Tighe, A.P., Van Eesbeek, M. et al. Overview of the Natural Space Environment and ESA, JAXA, and NASA Materials Flight Experiments. MRS Bulletin 35, 25–34 (2010). https://doi.org/10.1557/mrs2010.613

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