This study aims to investigate web crippling strength of single hat sections of stainless steel under the interior two-flange (ITF) loading condition. Twelve specimens, made of austenitic type 304 stainless steel, were designed to have different web thickness and support width. Finite element analysis was further performed to validate the analytic model by comparing the analysis results with test data. Furthermore, parametric study was conducted to study the effect of parameters on the web crippling strength. Test results demonstrated that increasing the thickness and support width resulted in increase of the web crippling strength. In addition, the comparison of the test results with various codes indicated the codes of North American Specification and American Society of Civil Engineering calculated well the web crippling strength except that Eurocode highly overestimated. Results of finite element analysis showed that either the web crippling strength or crippling behavior of the analysis agreed well with test results. Parametric study indicated that decreasing the flat height of the web can also increase the web crippling strength, in addition to the increase of the thickness and support width. Moreover, the effect of flat height of the web on the web crippling strength will be reduced when the support width decrease.