DfAM of Nonlinear Cellular Flexible Structures

ASME 2019 Conference on Smart Materials, Adaptive Structures and Intelligent Systems Pub Date : 2019-12-05 DOI:10.1115/smasis2019-5673

Jelena Djokikj, J. Jovanova

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引用次数: 1

Abstract

Nonlinear cellular structures are defined as structures with multiple scale unit cells patterned through the volume of the structure. The geometrical nonlinearity allows local high flexibility in the movement and also in the sense of strength of materials. The focus of this paper is to create a framework for design for additive manufacturing (DfAM) of a modular nonlinear cellular structure with high level of flexibility. The flexibility will be exploited in skin-like structures adaptable to freeform geometries or utilize flat printed designs for voluminous and structural 3D shapes. For the modeling of the structure CAD software is used and for the fabrication of the structure additive manufacturing (AM) is applied. These technologies work by adding the material in layers, which enables fabrication of parts with complex geometries. The working principal of AM which is opposite to the traditional manufacturing requires for changes in the design process. These changes are applied in the DfAM that we are presenting with this study. The DfAM is used to develop a systematic design approach to support the fabrication of unique structure shapes by AM.

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非线性元胞柔性结构的DfAM

非线性细胞结构被定义为具有多个尺度单位细胞的结构，通过结构的体积形成图案。几何非线性允许局部高度灵活的运动，也在材料强度的意义上。本文的重点是为具有高水平灵活性的模块化非线性细胞结构的增材制造(DfAM)设计创建一个框架。这种灵活性将被用于适应自由几何形状的皮肤状结构，或用于体积和结构3D形状的平面印刷设计。结构建模采用CAD软件，结构制造采用增材制造(AM)技术。这些技术通过分层添加材料来工作，这使得制造具有复杂几何形状的零件成为可能。增材制造的工作原理与传统制造相反，需要改变设计过程。这些变化应用于DfAM，我们在这项研究中提出。DfAM用于开发系统的设计方法，以支持AM制造独特的结构形状。

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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ASME 2019 Conference on Smart Materials, Adaptive Structures and Intelligent Systems

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