Open Access
EPJ Web of Conferences
Volume 76, 2014
Thermophysical Basis of Energy Technologies
Article Number 01030
Number of page(s) 7
Published online 27 August 2014
  1. Zhixiong, Wu, Hao, Zhang, Huihui, Yang, Xinxin, Chu, Yuntao, Song, Weiyue, Wu, Huajun, Liu, Laifeng Li, Properties of radiation stable, low viscosity impregnating resin for cryogenic insulation system, Cryogenics. 51 (2011) 229–233 [CrossRef]
  2. A. Hofmann, The thermal conductivity of cryogenic insulation materials and its temperature dependence, Cryogenics. 46 (2006) 815–824 [CrossRef]
  3. V.E. Gul, Influence of Change of Relaxation Properties on Polymer Tensile Strength, International Journal of Polymeric Materials and Polymeric Biomaterials. 20 (1993) 165–179 [CrossRef]
  4. Wei-Ting Lin, An Cheng, Ran Huang, Tsan-Ching Cheng, A method for testing the strength of concrete using uniaxial direct tension, Journal of the Chinese Institute of Engineers. 36 (2013) 295–303 [CrossRef]
  5. M. Barrios, S.W , Van Sciver, Thermal conductivity of rigid foam insulations for aerospace vehicles, Cryogenics. 55–56 (2013) 12–19 [CrossRef]
  6. Glicksman, Heat transfer in foams. In: Hilyard NC, Cunningham A , editors. Low density thermal plastics. London: Chapman and Hall, 1994
  7. M.A. Schuetz, L.R. Glicksman, A basic study of heat transfer through foam insulation, J Cell Plast. 20 (1987) 114–135 [CrossRef]
  8. A.L. Garcia, Numerical methods for physics, Prentice Hall, New York, 2000