Abstract
The use of Topology Optimization techniques has seen a great development since the last decade. The principal contributor to this trend is the widespread use of Additive Manufacturing technologies to effectively build complex and performant structures over different settings. Nevertheless, the use of Topology Optimization in Design for Additive Manufacturing processes is not simple and research aims to fill the gap between theory and practice by evolving at the same time both approaches, workflows, and design software that allow their implementation. Since a strong connection between methodologies and tools exists, this work proposes a method to assess computer-aided design tools or platforms. This can be applied to sustain the key phase for selection and adoption of the computer-aided tools in industrial settings embracing Additive Manufacturing. The workflow for Topology Optimization implementation, the structure of the proposed evaluation approach, and its application, are presented to demonstrate effective usability. The automotive case study is the redesign of internal combustion engine piston to benefit of metal Additive Manufacturing based enhanced product performance. A preliminary finite element model is defined and a Topology Optimization based redesign is concurrently set up through four different commercial computer-based platforms. The method accounting for the assessment of required operations for the design optimization is applied to perform the tools selection phase.
Highlights
One of the aims of structures design is the minimization of mass and maximization of material usage efficiency, a lightweight design has always been a core focus in the engineering field
Additive Manufacturing (AM) implementation allows for a rethink of features, shapes and geometries in order to exploit the functional design and make the design driven by engineering specifics instead of production constraints
Afterwards, the final redesign can be performed through the definitive model enriched by further design and simulation steps and a systematic approach to exploit the potentials of the selected Tools Systems (TSs)
Summary
One of the aims of structures design is the minimization of mass and maximization of material usage efficiency, a lightweight design has always been a core focus in the engineering field. Additive Manufacturing (AM) implementation allows for a rethink of features, shapes and geometries in order to exploit the functional design and make the design driven by engineering specifics instead of production constraints. The main strategies for the design of optimized lightweight components to be produced by Additive Manufacturing are cellular structures design, or rather Latticing, and Topology Optimization (TO). While the former can be considered as an Expertise-driven process, the latter can be structured as a mathematically driven process [2], since it can be linked to a numerical function optimization problem.
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