混合制造的衬底优化

Brandon R. Massoni, M. Campbell
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引用次数: 0

摘要

虽然金属增材制造的进步继续使增材制造在更多情况下成为可行的选择,但这些过程通常比减法方法(如机械加工)更慢,更昂贵。加法和减法的结合,通常被称为混合制造,可以用来获得两种工艺的好处,同时降低成本。然而,将零件划分为最具成本效益的加法和减法特征通常是耗时且不直观的。在本文中,我们提出了一种新的方法,优化类型,尺寸,并在一个零件的基板的位置。由此产生的混合制造配置使工程师能够在增材制造和机械加工之间达到最具成本效益的折衷。开发了一种完全实现的方法,并在几个实际工程部件上进行了测试。结果直观有用,并推动了最先进的混合制造工艺计划的产生。
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Substrate Optimization for Hybrid Manufacturing
While advances in metals additive manufacturing continue to make additive a viable option in more scenarios, these processes are generally slower and more expensive than subtractive methods, like machining. The combination of both additive and subtractive, often called hybrid manufacturing, can be used to get the benefits of both processes, while reducing cost. However, dividing a part into the most cost effective additive and subtractive features is often time-consuming and non-intuitive. In this paper, we present a new approach that optimizes the type, size, and position of a substrate within a part. The resulting hybrid manufacturing configuration enables engineers to reach the most cost-effective compromise between additive and machining. A fully implemented method has been developed and tested on several realistic engineering parts. The results are intuitively useful and push the state-of-the-art forward in generating hybrid manufacturing process plans.
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