Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Eine Plattform für die Wissenschaft: Bauingenieurwesen, Architektur und Urbanistik
Design method of rigidity-adjustable high-rigidity steel plate wall
A design method for a rigidity-adjustable high-rigidity steel plate wall comprises the steps that firstly, a structure is designed, the high-rigidity steel plate wall comprises corrugated steel plates, edge components and rigidity adjusting layers, the edge components are arranged at the two ends of the corrugated steel plates, the rigidity adjusting layers are arranged on one sides of the corrugated steel plates, and gaps exist between the rigidity adjusting layers and the edge components; 2, an algorithm is designed and used for adjusting and determining component parameters of the large-rigidity steel plate wall, the cost is controlled by adjusting and controlling the thickness of the corrugated steel plate in application, the machining difficulty is reduced, the efficiency is improved, the large-rigidity steel plate wall can provide large lateral stiffness for the structure under frequent earthquakes, and the construction cost is reduced. Large energy dissipation capacity can be provided for the structure under fortification earthquakes and rare earthquakes, so that the earthquake response of the structure under the action of frequent, fortification and rare earthquakes is reduced, and the anti-seismic safety of the structure is improved. According to the rigidity-adjustable high-rigidity steel plate wall, the corrugated steel plates are thinner, the machining difficulty is lower, the economical efficiency is better, and the application range is wider.
一种刚度可调的大刚度钢板墙设计方法,包括:步骤1,设计构造,大刚度钢板墙包括波纹钢板、边缘构件以及刚度调节层,边缘构件设置于波纹钢板两端,刚度调节层设置于波纹钢板的一侧,与边缘构件之间存在间隙;步骤2,设计算法,用于调节和确定大刚度钢板墙的构件参数,在应用中通过调节和控制波纹钢板厚度以控制成本,降低加工难度并提高效率,且大刚度钢板墙在多遇地震下可为结构提供较大的抗侧刚度,设防地震和罕遇地震下可为结构提供较大的消能能力,从而减小结构在多遇、设防和罕遇地震作用下的地震响应,提高结构的抗震安全性。本申请设计的刚度可调大刚度钢板墙,波纹钢板更薄,加工难度更低,经济性更好,应用范围更广。
Design method of rigidity-adjustable high-rigidity steel plate wall
A design method for a rigidity-adjustable high-rigidity steel plate wall comprises the steps that firstly, a structure is designed, the high-rigidity steel plate wall comprises corrugated steel plates, edge components and rigidity adjusting layers, the edge components are arranged at the two ends of the corrugated steel plates, the rigidity adjusting layers are arranged on one sides of the corrugated steel plates, and gaps exist between the rigidity adjusting layers and the edge components; 2, an algorithm is designed and used for adjusting and determining component parameters of the large-rigidity steel plate wall, the cost is controlled by adjusting and controlling the thickness of the corrugated steel plate in application, the machining difficulty is reduced, the efficiency is improved, the large-rigidity steel plate wall can provide large lateral stiffness for the structure under frequent earthquakes, and the construction cost is reduced. Large energy dissipation capacity can be provided for the structure under fortification earthquakes and rare earthquakes, so that the earthquake response of the structure under the action of frequent, fortification and rare earthquakes is reduced, and the anti-seismic safety of the structure is improved. According to the rigidity-adjustable high-rigidity steel plate wall, the corrugated steel plates are thinner, the machining difficulty is lower, the economical efficiency is better, and the application range is wider.
一种刚度可调的大刚度钢板墙设计方法,包括:步骤1,设计构造,大刚度钢板墙包括波纹钢板、边缘构件以及刚度调节层,边缘构件设置于波纹钢板两端,刚度调节层设置于波纹钢板的一侧,与边缘构件之间存在间隙;步骤2,设计算法,用于调节和确定大刚度钢板墙的构件参数,在应用中通过调节和控制波纹钢板厚度以控制成本,降低加工难度并提高效率,且大刚度钢板墙在多遇地震下可为结构提供较大的抗侧刚度,设防地震和罕遇地震下可为结构提供较大的消能能力,从而减小结构在多遇、设防和罕遇地震作用下的地震响应,提高结构的抗震安全性。本申请设计的刚度可调大刚度钢板墙,波纹钢板更薄,加工难度更低,经济性更好,应用范围更广。
Design method of rigidity-adjustable high-rigidity steel plate wall
一种刚度可调的大刚度钢板墙设计方法
JIN HUAJIAN (Autor:in) / SUN FEIFEI (Autor:in) / LI GUOQIANG (Autor:in)
15.09.2023
Patent
Elektronische Ressource
Chinesisch
Rigidity-adjustable wallboard connecting support and rigidity-adjustable wallboard
| Europäisches Patentamt | 2023
Rigidity-adjustable turnout shock absorber, rigidity setting method and turnout
| Europäisches Patentamt | 2023