Influence of a Stiffening Cable Net on Performance of Large-Span Air-Supported Membrane Structures

The air-supported membrane has such properties as lightness, flexibility, and strong geometric nonlinearity, which will be significantly affected by arrangements of stiffening cable nets.However, large-span air-supported membranes have seldom been reported.Meanwhile, the existing "CECS 158-2015 Technical Specification for Membrane Structure" does not specify the wind vibration coefficient of the air-supported membrane.Two large-span air-supported membrane models, with and without stiffening cable nets, were established to analyze their differences in stress and displacement under internal pressure and gravity.Taking 0° wind angle as example, the wind pressure coefficient was obtained by using CFD technology and applied to two types of air-supported membrane models for comparison.The Full method was used to analyze time-history response of wind-induced vibration and the wind vibration coefficients were calculated.The results show that cable nets have minor influence on find-forming analysis.Meanwhile, under internal pressure and gravity, the variation trend of the displacement of air-supported membrane structure is similar with that of the stress of membrane with or without cable nets.However, under the static wind load, the maximum displacement of air-supported membrane structure with cable nets decreased 57.3% relatively, and the maximum stress of membrane decreased 25% relatively.The depression displacement on the windward side of air-supported membrane structure with cable nets decreased obviously.However, the cable nets have little influence on the wind vibration coefficient of air-supported membrane structure, and the wind vibration coefficient of this air-supported membrane structure is suggested to be 1.3. © 2019, Editorial Board of Journal of Tianjin University(Science and Technology). All right reserved.