Generative Design and 3D Printing to Develop a Hi-tech Cartesian Cutting Machine for Non-metallic Materials

Additive Manufacturing, Modeling Systems and 3D Prototyping Pub Date : 1900-01-01 DOI:10.54941/ahfe1001589

S. Filippi, Franco Zuliani, Francisco Daniel Montoya Buteler

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Abstract

This paper describes the development of a Hi-tech Cartesian cutting machine for non-metallic materials in the laser converting field. The challenge stands in developing a better machine than the existing ones by speeding up the cutting process, allowing more formats of the material to cut and increasing versatility to better respond to different applications. Since extremely high accelerations, specific materials, sophisticated component shapes, critical mechanical properties, etc., are involved and required, state-of-the-art design tools, belonging to the collaborative design paradigm, come in real help to actors owning different competencies. Generative design allows defining the components of the core of the machine and 3D printing helps in evaluating the results in terms of dimensions, assembly, workspaces, etc. Other than starting to reach the expected result, this study highlights the added value of the design tools involved as well as some limitations and related expectations about possible upgrades of them in the future.

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基于生成设计和3D打印技术的高科技非金属材料笛卡尔切割机的研制

本文介绍了激光加工领域中非金属材料直角切割机的研制。挑战在于通过加快切割过程来开发比现有机器更好的机器，允许更多格式的材料切割，并增加多功能性以更好地响应不同的应用。由于涉及和要求极高的加速度、特定的材料、复杂的部件形状、关键的机械性能等，最先进的设计工具，属于协作设计范式，可以真正帮助拥有不同能力的参与者。生成式设计允许定义机器的核心组件，3D打印有助于评估尺寸，装配，工作空间等方面的结果。除了开始达到预期的结果外，本研究还强调了所涉及的设计工具的附加价值，以及一些限制和对未来可能升级的相关期望。

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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Additive Manufacturing, Modeling Systems and 3D Prototyping

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