Aerostatic performances of truss girders and arch ribs under wind are investigated by using wind tunnel testing and numerical simulations in this thesis.

For the deck of truss girder,the aerodynamic performance under skew wind is not clear because of the complexity of truss structures.

Experiments on the mechanical characteristic of the integral steel orthotropic bridge deck with three main trusses of Nanjing Dashengguan Yangtze River Bridge;

The main bridge of Dongguan Dongjiang bridge is a three main trusses steel bridge with rigid cable, is a new double-deck bridge structural style.

Research of transverse distribution of internal forces i of great importance in studying characteristics of high-speed railway bridge with three main trusses, and optimization analysis method is an effective way to improve research efficience for long span bridge with three main trusses.

With the three cable planes-three trusses cable-stayed bridge of Tianxingzhou in Wuhan as its engineering background,the paper studies the static properties of this bridge.

Based on the study of Tianxingzhou Bridge,a three cable-planes and three trusses cable-stayed bridge,in Wuhan-Guangzhou passenger dedicated lines,the tension force in cables has been optimized under the completed stage.

Finite element analysis of integral joint in three-truss continuous steel truss arch bridge

Nanjing Dashengguan Yangtse River Bridge is a steel truss girder (arch) bridge with six spans, three-truss, six railway lines on the high-speed railway from Beijing to Shanghai.

Deck load allocates among three trusses(arches)more complexly in three-truss(arch)bridges than in two-truss(arch)bridges.