摘要
为研究火灾引起多高层钢结构连续性倒塌的破坏机理以及多高层钢结构在火灾作用下的初始破坏规律,基于ABAQUS预定义场和重启动功能,建立了局部火灾引起多高层钢结构连续倒塌分析的静-动力转换分析方法,运用此分析方法模拟了局部火灾作用下钢结构的破坏过程,重点研究了柱破坏引起多高层钢结构倒塌的初始破坏机理,分析了受火柱约束刚度比和荷载水平对火灾作用下钢结构初始破坏以及对整体结构产生动力效应的影响规律。研究结果表明:静-动力转换分析方法具有可行性;初始破坏的动力放大系数在1.2~1.5之间。
To investigate the progressive collapse mechanism and the initial failure rule of multi-tory steel structures under fire conditions, the static-dynamic conversion analysis method wasdeveloped based on the predefined field and restart function of ABAQUS. Applying this static-dynamic analysis method, the failure process of a steel structure under local fire was simulatedand the initial damage mechanism of multi-story steel structures caused by the damage of column was studied. The influence of restraint stiffness ratio and load level to the initial damagemechanism of steel structures under fire conditions and dynamic effect of the whole structures was analyzed. The study results show that the static-dynamic conversion analysis method is feasibleand the dynamic amplification coefficient of the column initial damage lies from 1.2 to 1.5.
出处
《建筑科学与工程学报》
CAS
北大核心
2014年第2期65-70,104,共7页
Journal of Architecture and Civil Engineering
基金
国家自然科学基金项目(50908006
51278516)
关键词
钢结构
火灾反应
连续倒塌
静-动力转换分析方法
显式动力分析
动力放大系数
steel structure
fire response
progressive collapse
static-dynamic conversion analysis method
explicit dynamic analysis
dynamic magnification coefficient