Towards Selective Volumetric Additive Manufacturing and Processing of Ceramics

Volume 1: 39th Computers and Information in Engineering Conference Pub Date : 2019-11-25 DOI:10.1115/detc2019-98195

A. Iliopoulos, J. Michopoulos, J. Steuben, A. Birnbaum, B. Graber, B. Rock, L. Johnson, E. Gorzkowski

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引用次数: 2

Abstract

The development of advanced additive manufacturing (AM) and material processing techniques is currently a topic of great interest to broad communities of scientists and engineers. In particular, there is a need for AM processes capable of producing functional and high-quality components at a faster rate than is currently achievable. In response to this demand, the present work introduces the initial steps of a novel spatially-resolved and selective approach for processing volumetric regions of ceramic materials. The proposed method utilizes microwave radiation to heat material at desired locations within a domain filled with ceramic powder. Using this principle of operation, a number of methods for implementation of this process are proposed. As a first step, a multiphysics computational methodology and an associated model that allows for the analysis and design of relevant processing systems is introduced. Additionally, a number of simulations demonstrating the feasibility of the proposed methodology are presented. Based on these preliminary results, we conclude with a discussion of ongoing and future efforts to fully realize this technology.

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选择性体积增材制造与陶瓷加工研究

先进增材制造(AM)和材料加工技术的发展是目前广大科学家和工程师非常感兴趣的话题。特别是，需要能够以比目前更快的速度生产功能和高质量组件的增材制造工艺。为了响应这一需求，本研究介绍了一种新的空间分辨和选择性方法的初始步骤，用于处理陶瓷材料的体积区域。所提出的方法利用微波辐射在填充陶瓷粉末的区域内的所需位置加热材料。利用这一操作原理，提出了若干实现这一过程的方法。作为第一步，介绍了一种多物理场计算方法和相关模型，允许分析和设计相关的处理系统。此外，还提出了一些模拟，证明了所提出方法的可行性。基于这些初步结果，我们最后讨论了正在进行的和未来的努力，以充分实现这项技术。

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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Volume 1: 39th Computers and Information in Engineering Conference

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