摘要
将创新技术合理运用于超大跨径斜拉桥设计过程中,有利于提升斜拉桥结构稳定性及力学性能,并有效降低钢材、混凝土等建设材料的用量,实现低碳建设。分析创新设计在超大跨径斜拉桥低碳建设中的应用,以千米级超大跨径斜拉桥设计为例,重点分析采用不同主梁设计方案时,斜拉桥建设的成本消耗情况,找到低碳属性最佳的设计方案,供相关人员参考借鉴。
The rational application of innovative technologies to the design of ultra-long-span cable-stayed bridges is conducive to improving the structural stability and mechanical properties of cable-stayed bridges,and effectively reducing the amount of construction materials such as steel and concrete to achieve low-carbon construction.This article analyzes the application of innovative design in the low-carbon construction of super-long-span cable-stayed bridges.Taking the design of kilometer-class super-long-span cable-stayed bridges as an example,the analysis focuses on the cost and consumption of cable-stayed bridge construction when different main beam design schemes are used.To find the best design solution for low carbon properties,for reference by relevant personnel.
出处
《建筑技术开发》
2020年第9期120-121,共2页
Building Technology Development
关键词
超大跨径斜拉桥
主梁设计
低碳建设
super-long-span cable-stayed bridge
main girder design
low-carbon construction
