Abstract
In this paper three dimensional nonlinear finite element analysis is performed for the optimization of an overhead crane box girder for capacity (50 similar to 120ton) and span (10 similar to 32 m) for safe bending stress and deflection with minimum mass and volume. A customized optimization code is developed using interpolative relations and correction factors to achieve optimized results with and without considering industrial constraints. A cutting and welding plan is developed to provide a standard operating procedure for the manufacturing of the box girder. Bill of materials, box girder design dimensions, and cutting and welding lengths are recorded with considerable time saving.