Residential areas and buildings located in vulnerable areas of landslide are commonly subjected to debris flow hazards. Recently, there is an increasing interest in researches on risk assessment. For a risk assessment, vulnerability assessment for the elements at risk in debris flow is required. Vulnerability assessment of elements at risk is a key component for risk assessment. Vulnerability assessment requires an understanding of the interaction between the hazard and the exposed element. This interaction can be expressed as a vulnerability curve. In this study, back analysis performed from total 4 cases of debris flow disasters occurred in between July and August, 2011. The appropriate input parameters were determined through the quantitative index analysis and survey data of debris flow affected areas. Numerical analyses were also carried out for each of the study area, Disaster-induced factors(debris flow height, velocity and impact pressure) were calculated on the damage of building. Physical vulnerability functions of masonry buildings were obtained from the relationship of the degree of building damage and the physical characteristics of debris flow obtained through the numerical analysis. The proposed physical vulnerability functions could be used as a quantitative assessment of the structural resistance of building affected by a debris flow event, and a vulnerability assessment for urban debris flow.