Design for Additive Manufacturing Using a Master Model Approach

A. Wiberg, J. Andersson
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引用次数: 3

Abstract

The introduction of Additive Manufacturing opens up possibilities for creating lighter, better and customized products. However, to take advantage of the possibilities of Additive Manufacturing, the design engineer is challenged. In this paper, a general design process for the creation of complex products is proposed and evaluated. The proposed method aims to aid a design process in which Topology Optimization (TO) is used for concept development, and the result is then interpreted into a Master Model (MM) supporting design evaluations during detailed design. At the same time as the MM is created, information regarding manufacturing is saved in a database. This makes it possible to automatically generate and export models for manufacturing or CAE analyses. A tool that uses Knowledge-Based Engineering (KBE) to realize the presented methodology has been developed. The tool is specialized for the creation of structural components that connect to other components in an assembly. A case study, part of an aircraft door, has been used for evaluation of the tool. The study shows that the repetitive work when interpreting the topology-optimized design could be reduced. The result comes in the form of a parametric CAD model which allows fast changes and the coupled database enables the export of models for various purposes.
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使用主模型方法的增材制造设计
增材制造的引入为创造更轻、更好和定制化的产品开辟了可能性。然而,为了利用增材制造的可能性,设计工程师面临着挑战。本文提出并评价了复杂产品的通用设计过程。提出的方法旨在帮助设计过程,其中拓扑优化(to)用于概念开发,然后将结果解释为主模型(MM),支持详细设计期间的设计评估。在创建MM的同时,有关制造的信息被保存在数据库中。这使得自动生成和导出用于制造或CAE分析的模型成为可能。开发了一种利用知识工程(KBE)来实现该方法的工具。该工具专门用于创建连接到组件中的其他组件的结构组件。一个案例研究,飞机舱门的一部分,已用于评估该工具。研究表明,该方法可以减少拓扑优化设计解释时的重复性工作。结果以参数化CAD模型的形式出现,该模型允许快速更改,耦合数据库允许为各种目的导出模型。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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