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A survey of design methods for material extrusion polymer 3D printing
Virtual and Physical Prototyping ( IF 10.2 ) Pub Date : 2020-01-14 , DOI: 10.1080/17452759.2019.1708027
Jiaqi Huang 1, 2 , Qian Chen 3 , Hao Jiang 4 , Bin Zou 1, 2 , Lei Li 1, 2 , Jikai Liu 1, 2 , Huangchao Yu 5
Affiliation  

In recent years, additive manufacturing technology has been highly focused on its strong capability in complex geometry manufacturing and great suitability for customised product fabrication. Researchers have recognised the key role of additive manufacturing in leading the next-generation manufacturing, and have conducted extensive research from different aspects, including product design, process development, material modelling and many others. Several design-for-additive manufacturing methods have been proposed, specifically about design, and different computer-aided programmes have been developed, such as geometric modelling-based design, bio-inspired design, evolutionary algorithm-driven design and topology optimisation. However, authors have observed that many of these methods are named ‘design for additive manufacturing’ without specifying the exact additive manufacturing process. This could be problematic since a general design method cannot reflect the best practice given a specific additive manufacturing process. In this review paper, material extrusion polymer 3D printing is focused specifically. The motive of this paper is to conduct a literature survey about design methods for material extrusion polymer 3D printing, summarising the state of the art and pointing out the underdeveloped research topics; more importantly, some general design-for-additive manufacturing methods will be discussed, especially for their adaption to the material extrusion process.



中文翻译:

材料挤出聚合物3D打印设计方法概述

近年来,增材制造技术一直高度关注其在复杂几何形状制造中的强大功能以及非常适合定制产品制造的能力。研究人员已经认识到增材制造在引领下一代制造业中的关键作用,并且已经从不同方面进行了广泛的研究,包括产品设计,工艺开发,材料建模等。已经提出了几种针对加法制造的设计方法,特别是关于设计的方法,并且已经开发了不同的计算机辅助程序,例如基于几何建模的设计,受生物启发的设计,进化算法驱动的设计和拓扑优化。然而,作者已经观察到,其中许多方法都被称为“增材制造设计”,而没有指定确切的增材制造工艺。这可能是有问题的,因为在特定的增材制造过程中,通用设计方法无法反映最佳实践。在这篇综述文章中,重点介绍了材料挤出聚合物3D打印。本文的目的是对材料挤出聚合物3D打印的设计方法进行文献调查,总结最新技术并指出欠发达的研究主题。更重要的是,将讨论一些通用的增材制造设计方法,尤其是它们对材料挤压工艺的适应性。这可能是有问题的,因为在特定的增材制造过程中,通用设计方法无法反映最佳实践。在这篇综述文章中,重点介绍了材料挤出聚合物3D打印。本文的目的是对材料挤出聚合物3D打印的设计方法进行文献调查,总结最新技术并指出欠发达的研究主题。更重要的是,将讨论一些通用的增材制造设计方法,尤其是它们对材料挤压工艺的适应性。这可能是有问题的,因为在特定的增材制造过程中,通用设计方法无法反映最佳实践。在这篇综述文章中,重点介绍了材料挤出聚合物3D打印。本文的目的是对材料挤出聚合物3D打印的设计方法进行文献调查,总结最新技术并指出欠发达的研究主题。更重要的是,将讨论一些通用的增材制造设计方法,尤其是它们对材料挤压工艺的适应性。本文的目的是对材料挤出聚合物3D打印的设计方法进行文献调查,总结最新技术并指出欠发达的研究主题。更重要的是,将讨论一些通用的增材制造设计方法,尤其是它们对材料挤压工艺的适应性。本文的目的是对材料挤出聚合物3D打印的设计方法进行文献调查,总结最新技术并指出欠发达的研究主题。更重要的是,将讨论一些通用的增材制造设计方法,尤其是它们对材料挤压工艺的适应性。

更新日期:2020-04-20
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