Fig.11-6 Arch stiffened with girder or truss H形截面 竖向加劲板 拱肋,水平加劲支撑 桁架加劲拱肋 (a)拱肋竖向加劲 (b)水平加劲支撑 (c)波形拱加劲拱形屋面
Fig.11-6 Arch stiffened with girder or truss H形截面 竖向加劲板 桁架加劲拱肋 拱肋 水平加劲支撑 (a)拱肋竖向加劲 (b)水平加劲支撑 (c)波形拱加劲拱形屋面
Fig.11-7 Arch rib horizontally stiffened by bracing 崖萌大格
Fig.11-7 Arch rib horizontally stiffened by bracing
How to balance the kick of arch? 拱 拱 拉索 基础梁 拱 基础 拉索 A (a)支座直接承受 (b)加入拉杆 8 n77n aaa (c)加大刚度的边支撑结构
How to balance the kick of arch? 基础 基础梁 拱 拱 拉索 拱 拉索 (a) 支座直接承受 (b) 加入拉杆 (c) 加大刚度的边支撑结构
11.2.Suspension Systems As reverse to arch rib,the advantage of suspension system is fully utilizing material property in tension. The suspension system is more efficient than arch system because there is no buckling problem in suspension
11.2. Suspension Systems As reverse to arch rib, the advantage of suspension system is fully utilizing material property in tension. The suspension system is more efficient than arch system because there is no buckling problem in suspension
Fig.11-12 Typical suspension bridge system (a) STIFFENING TRUSS OR GIRDER PIERS ANCHOR (b) 个 T CABLE, H长 MA =0 V业业中业 4=发·4 H- 8
Fig.11-12 Typical suspension bridge system