Journal of
Chemical Engineering and Materials Science

  • Abbreviation: J. Chem. Eng. Mater. Sci.
  • Language: English
  • ISSN: 2141-6605
  • DOI: 10.5897/JCEMS
  • Start Year: 2010
  • Published Articles: 96

Full Length Research Paper

Effect of plasma magnet power supplies operating temperatures on the thermal life of space-vehicles

A. Anvari
  • A. Anvari
  • Department of Mechanical and Aerospace Engineering, University of Missouri-Columbia, Columbia, Missouri, U.S.A.
  • Google Scholar


  •  Received: 30 January 2019
  •  Accepted: 02 April 2019
  •  Published: 31 May 2019

References

Anvari A (2014). Fatigue life prediction of unidirectional carbon fiber/epoxy composite in Earth orbit. International Journal of Applied Mathematics and Mechanics 10(5):58-85.

 

Anvari A (2017b). Crack growth as a function of temperature variation in carbon fiber/epoxy. Journal of Chemical Engineering and Materials Science 8(3):17-30.
Crossref

 

Anvari A (2017a). Fatigue Life Prediction of Unidirectional Carbon Fiber/Epoxy Composite on Mars. Journal of Chemical Engineering and Materials Science 8(8):74-100.
Crossref

 

Anvari A (2017c). Thermal fatigue life of carbon nanotube wire and unidirectional carbon fiber/epoxy composite (UCFEC) in earth orbit. Journal of Chemical Engineering and Materials Science 8(8):101-111.
Crossref

 

Anvari A (2018). Thermal Life of Carbon Structures; From the Earth to after the Titan. International Journal of Aerospace Engineering. In press.
Crossref

 

Birek L, Molitorys S (2009). Hydrogen fuel cell emergency power system. Master's thesis, School for Renewable Energy Science, University of Iceland and University of Akureyri.

 

Cucinotta FA, Kim MHY, Ren L (2005). Managing Lunar and Mars Mission Radiation Risks-Part I: Cancer Risks, Uncertainties, and Shielding Effectiveness. NASA/Technical Report-213164.

 

Diaz FC, Seedhouse E (2017). To Mars and Beyond, Fast! How Plasma Propulsion will Revolutionize Space Exploration. Springer

 

International Publishing Switzerland. Published in association with Praxis Publishing, Chichester, UK.

 

Fuel Cell Handbook (2004). U.S. Department of Energy. Morgantown, West Virginia 26507-0880. Seventh Edition.

 

Giannadakis K, Varna J (2009). Effect of thermal aging and fatigue on failure resistance of aerospace composite materials. 5th International EEIGM/AMASE/FORGEMAT conference on Advanced Materials Research, IOP Conference Series: Materials Science and Engineering 5:012020:1-9.
Crossref

 

Giorgi L, Leccese F (2013). Fuel cells: technologies and applications. The Open Fuel Cells Journal 6:1-20
Crossref

 

Horneck G, Comet B (2006). General human health issues for Moon and Mars missions: Results from the HUMEX study. Advances in Space Research 37:100-108.
Crossref

 

Jakupca I (2018). Fuel cell research and development for Earth and space applications. Department of Energy. (NASA) Annual Merit Review, 14 June 2018.

 

Karadeniz ZH, Kumlutas D (2007). A numerical study on the thermal expansion coefficients of fiber reinforced composite materials. Master of science Thesis in mechanical engineering, Energy program, Dokuz Eylul University.
Crossref

 

Levy RH, French FW (1967). The Plasma Radiation Shield: Concept, and Applications to Space Vehicles. NASA-George C. Marshal Space Flight Center. AVCO Everett Research Laboratory, Massachusetts.

 

Levy RH, French FW (1968). Plasma Radiation Shield: Concept and Applications to Space Vehicles. Journal of Space-craft 5(5):570-577.
Crossref

 

Park SY, Choi HS, Choi, WJ, Kwon H (2012). Effect of vacuum thermal cyclic exposures on unidirectional carbon fiber/epoxy composites for low earth orbit space applications. Composites: Part B. 43:726-738.
Crossref

 

Pasachoff JM (1993). From the Earth to the Universe. Part 2: The Solar System, 11 Mars, Saunders College Publishing, Williamstown, Massachusetts, Fourth Edition, pp. 190-203.

 

Rahman MS, Riadh RR, Paul S (2015). Investigate the output behavior of Alkaline Fuel Cell's (AFC's) parameters: flow rate and supply pressure. Electrical and Electronics Engineering: An International Journal 4(4):99-118.
Crossref

 

Schulze-Makuch D, Davies P (2010). To Boldly Go: A One-Way Human Mission to Mars. Journal of Cosmology 12:3619-3626.

 

Shin KB, Kim CG, Hong CS, Lee HH (2000). Prediction of failure thermal cycles in graphite/epoxy composite materials under simulated low earth orbit environments. Compos Part B: Eng. 31:223-235.
Crossref

 

Vasquez A, Varanauski D, Clark R (2017). Analysis and test of a proton exchange membrane fuel cell power system for space power applications. NASA Johnson space center. Houston, Texas 77058-77059.

 

Warshay M, Prokopius PR (1989). The fuel cell in space: yesterday, today and tomorrow. NASA Technical Memorandum 102366. Lewis Research Center. Cleveland, Ohio.

 

Zimcik DG, Wertheimer MR, Balmain KB, Tennyson RC (1991). Plasma-Deposited Protective Coatings for Spacecraft Applications. Journal of Spacecraft 28(6):652-657.
Crossref