Finite Elements in Analysis and Design
Developing extendible component-oriented finite element software
Advances in Engineering Software - Special issue on engineering computational technology
A system for information management in simulation of manufacturing processes
Advances in Engineering Software - Special issue on engineering computational technology
All-hexahedral remeshing for the finite element analysis of metal forming processes
Finite Elements in Analysis and Design
ZAP: a knowledge-based FEA modeling method for highly coupled variable topology multi-body problems
Engineering with Computers
A nearest-nodes finite element method with local multivariate Lagrange interpolation
Finite Elements in Analysis and Design
Advances in Engineering Software
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A Finite Element Data Exchange System (FEDES) is developed to transfer and map finite element analysis (FEA) data between different FE solvers and meshes. Six commercial FE codes (ABAQUS, ANSYS, DEFORM, MSC.MARC, MORFEO and VULCAN) are incorporated in FEDES. Four mapping techniques are developed and embedded in FEDES which allow the data mapping between meshes with different element types and densities. The algorithms of the mapping techniques are described and compared for 2D and 3D models. The design and capabilities of FEDES are also described. Results from the data transfer and mapping between different FE simulations are presented and discussed. Two manufacturing chains are simulated using FEDES in this paper. The first manufacturing chain is simulated on a parallelepiped geometry including casting, forging and heat treatment processes. The second manufacturing chain is simulated on an aero-engine vane component including metal deposition, welding, heat treatment, machining and shot-peening processes. The development of FEDES demonstrates an integrated simulation platform for modelling manufacturing chains of processes using different FE solvers and meshes.