Application of probabilistic finite element analysis for crane hook design

Abstract

PurposeThe purpose of this paper is to report a study in which the feasibility of conducting probabilistic finite element analysis (FEA) for crane hook design has been explored.Design/methodology/approachThis paper presents the results of probabilistic analysis, where in the input random variables are varied and corresponding variations in the output parameters were observed. In this study, material properties and load have been considered as random input variables and the maximum stress, maximum deflection variations were considered as output random variables.FindingsThe probability of occurrence of output variation and the sensitivity of output variables on the input variables are the important results generated from this analysis. By performing this probabilistic analysis, the random selection of factor of safety could be avoided.Research limitations/implicationsThe implementation study has been carried out for a single product.Practical implicationsThe usage of the approach will indicate the importance of probabilistic analysis in product design and development process. This process will enable the organization to compete in the global market.Originality/valueA case study has been reported to indicate the feasibility of performing probabilistic FEA for crane hook design. Hence, the contributions are original.