中文摘要：

有效地模仿碎片流动的影响负担并且在碎片流动的动态影响下面调查体系结构的动态反应是很重要的，它是必要的设计灾难缓解建设。第一，增强了在西方的中国的山区的国内体系结构被选择了为主要建筑学风格的水泥。Thebearing 负担风格和增强的加框的的建设的 destructed 形状影响了由不连续粘滞碎片流动系统地被学习。第二，在云南省的 Jiangjia 沟壑碎片流动山谷，中国是被选择了研究区域。利用从现场考古工作和实际调查基于数据，理论上模仿并且推测影响的作者强迫 ofdiscontinuousviscous 碎片流动。第三，收集系统(IMHE IDCS ) 的一个影响数据被设计并且发展了完成设计模拟实验。最后，研究结构模型的一系列影响测试被完成了。在实验期间，模型的 destructed 形状和菜被观察，动态排水量数据和模型的主要自然频率数据镇定、分析。

英文摘要：

It＇s very important to simulate impact load of debris flow effectively and to investigate dynamic response of architectures under dynamic impact of debris flow, which are necessary to design disaster mitigation construction. Firstly, reinforced concrete domestic architectures in mountain areas of western China had been chosen as main architecture style. The bearing load style and the destructed shape of reinforced flamed construction impacted by discontinuous viscous debris flow were studied systematically. Secondly, Jiangjia Ravine debris flow valley in Yunnan Province, China had been chosen as research region. Utilizing based data from fieldwork and practical survey, the authors simulated and calculated theoretically impact force of discontinuous viscous debris flow. Thirdly, an impact data collecting system （IMHE IDCS） was designed and developed to fulfill designed simulation experiments. Finally, a series of impact test of researched structure models had been fulfilled. During experiment, the destructed shape and course of models were observed and the dynamic displacement data and main natural frequency data of models were collected and analyzed.