Focus Somosvári BM, Bárczy P, Szőke J, Szirovicza P,
Bárczy T. FOCUS: Foam evolution and stability in
microgravity. Colloids and Surfaces A:
Physicochemical and Engineering Aspects.
2011;382: 58-63.
ESA
Ice Crystal Adachi S, Yoshizaki I, Ishikawa T, Shimaoka T.
Stable growth of ice crystals under microgravity.
Transactions of the Japan Society for
Aeronautical and Space Sciences. Vol. 12, No.
ists29. p.Ph_1-Ph_5.
JAXA
Ice Crystal Yoshizaki I, Ishikawa T, Adachi S, Yokoyama E,
Furukawa Y. Precise measurements of dendrite
growth of ice crystals in microgravity.
Microgravity Science and Technology.
2012;24(4):245-253. doi: 10.1007/s12217- 012 -
9306 - 9.
JAXA
Ice Crystal Adachi S, Yoshizaki I, Ishikawa T, Yokoyama E,
Furukawa Y, Shimaoka T. Stable growth
mechanisms of ice disk crystals in heavy water.
Physical Review E. November
2011;84(5):051605. doi:
10.1103/PhysRevE.84.051605.
JAXA
Ice Crystal Yokoyama E, Yoshizaki I, Shimaoka T, Sone T,
Kiyota T, Furukawa Y. Measurements of growth
rates of an ice crystal from supercooled heavy
water under microgravity conditions: Basal face
growth rate and tip velocity of a dendrite.
Journal of Physical Chemistry B.
2011;115(27):8739-8745. doi:
10.1021/jp110634t.
JAXA
Ice Crystal Yokoyama E, Sekerka R, Furukawa Y. Growth of
an ice disk: Dependence of critical thickness for
disk instability on supercooling of water. Journal
of Physical Chemistry B. April 9, 2009;
113(14):4733-4738. doi: 10.1021/jp809808r.
JAXA
I-Foam Santo L. Recent developments in the field of
shape memory epoxy foams. Materials Science
Forum. May 2014;783-786:2523-2530. doi:
10.4028/www.scientific.net/MSF.783-786.2523.