Mathematical Theory of Longitudinally Loaded Elastic-Plastic Transmission Lines -- Statics

“…Mozer et al [9] emphasised the results from an equilibrium solution based on a non‐linear stiffness analysis of the line system, in which the flexibility of the support structures is considered. Moreover, Lindsey [10] presented a unified and complete mathematical model to predict the longitudinal strength of a transmission‐line system. Some tests [11, 12] and computer programs [13, 14] were developed and presented that can statically analyse a flexible transmission‐line system subjected to broken conductors and unbalanced ice conditions.…”

Experimental study on releasing the unbalanced tension using sliding suspension string with V‐shaped groove for transmission line under ice accretion

“…Mozer et al [9] emphasised the results from an equilibrium solution based on a non‐linear stiffness analysis of the line system, in which the flexibility of the support structures is considered. Moreover, Lindsey [10] presented a unified and complete mathematical model to predict the longitudinal strength of a transmission‐line system. Some tests [11, 12] and computer programs [13, 14] were developed and presented that can statically analyse a flexible transmission‐line system subjected to broken conductors and unbalanced ice conditions.…”

Experimental study on releasing the unbalanced tension using sliding suspension string with V‐shaped groove for transmission line under ice accretion