4SHERIF Y, CHRISTOPHER Y T,DAVID F,et al. Conductive concrete overlay for bridge deck deicing: Mixture proportioning, optimization, and properties [J]. ACI Materials Journal, 2000,97 ( 2 ) : 172-181.
5MICHEL L, ROGER B, VENNE A. De-icing EHV overhead transmission lines using electromagnetic forces generated by moderate short-circuit currents[C]//Proceedings of IEEE 9th International Con- ference on Transmission and Distribution Construc tion,Operation and Live-line Maintenance. Quebec, Canada : IEEE, 2000.
6KATHLEEN F J. Ice accretion in freezing rain [R]. Cold Regions Research &Engineering Laboratory, 1996.
7MAURICE H, LANGHEIT C, CARON J. Com- bined models for glaze ice accretion and de Icing of current-carrying electrical conductors [J ]. IEEE Transactions on Power Delivery, 2005,20 ( 2 ) : 1611- 1616.
8RARATY L E, TABOR D. The adhesion and strength properties of ice [J]. Proceedings of the royal society A : Mathematical, Physical & Engineer ing Science, 1958(245): 184-201.
9IVAN A R,VICTOR F P. Physical mechanisms re sponsible for ice adhesion[J]. J. Phys. Chem. B, 1997,101(32) :6267-6270.
10ANDREWS E H, I.OCKINGTON N A. The cohe- sive and adhesive strength of ice [J]. Journal of Ma terials Science, 1983,18 : 1455-1465.