Voxel-Based CAD Framework for Planning Functionally Graded and Multi-Step Rapid Fabrication Processes

Cole Brauer, Daniel M. Aukes
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引用次数: 3

Abstract

In this paper we describe a new framework for planning functionally graded and multi-step fabrication processes for use in rapid prototyping applications. This framework is contributing to software tools that will simplify planning multi-material manufacturing processes and thereby make this type of manufacturing more accessible. We introduce the material description itself, low-level operations which can be used to combine one or more geometries together, and algorithms which assist the designer in computing manufacturing-compatible sequences. We then apply these tools to several example scenarios. First, we demonstrate the use of a Gaussian blur to add graded material transitions to a model which can then be produced using a multimaterial 3D printing process. Our second example highlights our solution to the problem of inserting a discrete, off-the-shelf part into a 3D printed model during the printing sequence. Finally, we implement this second example and manufacture two example components. The results show that the framework can be used to effectively generate the files needed to produce specific classes of parts.
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基于体素的CAD框架规划功能分级和多步骤快速制造过程
在本文中,我们描述了一个新的框架,用于规划功能分级和多步骤的制造过程,用于快速成型应用。该框架有助于软件工具简化多材料制造过程的规划,从而使这种类型的制造更容易实现。我们介绍了材料描述本身,可用于将一个或多个几何形状组合在一起的低级操作,以及帮助设计人员计算制造兼容序列的算法。然后,我们将这些工具应用于几个示例场景。首先,我们演示使用高斯模糊来添加渐变材料过渡到一个模型,然后可以使用多材料3D打印过程产生。我们的第二个例子突出了我们的解决方案,以插入一个离散的,现成的部分到打印序列期间的3D打印模型的问题。最后,我们实现了第二个示例并制作了两个示例组件。结果表明,该框架可以有效地生成生产特定类别零件所需的文件。
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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