多孔三维粘土结构点沉积建模中的动态挤出控制

IF 2.7 Q1 MATERIALS SCIENCE, CERAMICS
Vesela Tabakova, Christina Klug, Thomas H. Schmitz
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引用次数: 0

摘要

在液态沉积建模(LDM)中,粘性粘土的动态状态经常导致数字模型与生成的物理对象之间的差异。这种紧急行为可以用来制造复杂的物理结构,这是其他方法无法实现的。本研究利用挤压粘土链的粘性状态和抗拉强度,探索动态挤压和变形在LDM中通过行程路径制造复杂多孔物理结构的影响。在两个案例研究中讨论了这些参数的影响:(1)具有开放或加厚区域的规则和半随机点状沉积表面,以及(2)通过控制垂直挤压弯曲产生的多孔三维晶格结构。通过算法编程改变材料沉积的顺序和速率,实现了物体更高的几何复杂性,允许广泛的构建方法,扩大了可持续的小型和大型元素的生产范围。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Dynamic Extrusion Control in Spot Deposition Modeling for Porous 3D Clay Structures
The dynamic state of the viscous clay in Liquid Deposition Modeling (LDM) often leads to discrepancies between the digital model and the resulting physical object. This emergent behavior can be harnessed to produce complex physical structures that would not be possible with other methods. This study takes advantage of the viscous state and tensile strength of the extruded clay strand to explore the impact of dynamic extrusion and deformations through travel paths in LDM to manufacture complex porous physical structures. The effects of these parameters are discussed in two case studies: (1) regular and semi-random Spot Deposition surfaces with either open or thickened regions, and (2) porous 3D lattice structures created through the controlled bending of vertical extrusions. The achieved higher geometrical complexity of objects through the algorithmically programmed alternations in the sequence and rate of material deposition allows for a wide range of buildup approaches that expand the production spectrum of sustainable small- and large-scale elements.
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来源期刊
CiteScore
3.00
自引率
7.10%
发文量
66
审稿时长
10 weeks
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