12 / 13
Т.Г. Агеева, К.В. Михайловский
12
Инженерный журнал: наука и инновации
# 10·2016
Substantiation of the choice of materials for the wing
of tourist class suborbital reusable space vehicle
© T.G. Ageyeva, K.V. Mikhaylovskiy
Bauman Moscow State Technical University, Moscow, 105005, Russia
The article presents the results of numerical simulation of the thermal conditions of the
wing of a hybrid polymer composite material for tourist class reusable space vehicle to
fly on a suborbital trajectory.Calculations performed by finite element analysis, using the
universal software system ANSYS Workbench 16.0, provide the temperature distribution
on the surface of the wing corresponding to the stage of vehicle descentin the atmos-
phere. It became clear that thermal-protective coating must be used at the edges of the
wing and the type of coating was
defined.Asa result of finite element simulation classes
of polymeric matrix materials, suitable for the manufacture of hybrid composite wing skins,
and carbon composite spar were identified, and the honeycomb filling material used in the
wing skin was selected, using thermal condition numerical simulation methods.
Keywords:
reusable space vehicle, thermal conditions, wing, hybrid composite material,
simulation.
REFERENCES
[1]
Seedhouse E.
Suborbital: Industry at the Edge of Space
. Springer Praxis
Books.2014, 184 p. Available at:
http://www.springer.com/gp/book/9783319034843 (accessed May 15, 2016).
[2]
Pilugina A.V., Ageyeva T.G.
Vestnik MGTU im. N.E. Baumana. Seriya
Mashinostroyeniye — Herald of the Bauman Moscow State Technical
University. Series: Mechanical Engineering
, 2012, pp. 107–119.
[3]
Ashford D.
The Aeronautical Journal
, 2009, vol. 113 (1146), pp. 499–515.
[4]
Dudar E., Bruk A. Aircraft Means Application for Suborbital Tourist Flights and
Commercial Satellites Launching into an Orbit.
Proceeding of the 27
th
International Congress of the Aeronautical Sciences (ICAS 2010),
Nice, France,
September 19–24, 2010.
[5]
Resnik S.V., Ageyeva T.G.
Vestnik MGTU im. N.E. Baumana. Seriya
Mashinostroyeniye — Herald of the Bauman Moscow State Technical
University. Series: Mechanical Engineering
, 2010, special edition for the 180th
anniversary of BMSTU, pp. 19–34.
[6]
Resnik S.V., Prosuntsov P.V., Ageyeva T.G.
Vestnik NPO im. S.A. Lavochkina —
Space Journal of Lavochkin Association
, 2013, no. 1 (17), pp. 38–43.
[7]
Resnik S.V.,
Inzhenernyy zhurnal: nauka i innovatsii
—
Engineering Journal:
Science
and
Innovation,
2013,
no.
3.
Available
at:
http://engjournal.ru/catalog/machin/rocket/638.html(accessed July 10, 2016).
[8]
Resnik S.V., Ageyeva T.G. Dudar E.N.
Aviakosmicheskaya tekhnika i
technologiya — Aerospace Technic and Technology,
2010, no. 2, pp. 3–8.
[9]
Sarigul-Klijn M., Sarigul-Klijn N.
Flight Mechanics of Manned Sub-Orbital
Reusable Launch Vehicles with Recommendations for Launch and Recovery.
Available at:
http://mae.engr.ucdavis.edu/faculty/sarigul/AIAA_2003_0909_revised_Sep03.pdf(accessed July 06, 2016).