3D printing and additive manufacturing. 2024 Jun 18;11(3):907-918. doi: 10.1089/3dp.2023.0287 Q32.12025

Large-Scale Hollow-Core 3D Printing: Variable Cross-Section and Printing Features for Lightweight Plastic Elements

大规模中空核心3D打印：轻量化塑料元件的变截面及打印特征研究翻译改进

Matthias Leschok¹, Marirena Kladeftira^{1 2}, Yen-Fen Chan¹, Benjamin Dillenburger¹

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作者单位

¹ Department of Architecture, Digital Building Technologies, ETH Zurich, Zurich, Switzerland.

² School of Architecture, Civil and Environmental Engineering, EPFL, Lausanne, Switzerland.

DOI: 10.1089/3dp.2023.0287 PMID: 39359601

摘要中英对照阅读

Hollow-core 3D printing (HC3DP) proposes a new method for the production of lightweight, material-efficient thermoplastic 3D printed elements. This new fabrication approach promises material savings of 50-80%, while increasing the extrusion rate significantly (factor 10). This development pushes HC3DP to a similar fabrication speed as high-resolution concrete 3D printing. However, fundamental research on printing features enabled by this novel 3D printing ... ...点击完成人机验证后继续浏览

中空芯三维打印（HC3DP）提出了一种生产轻质、材料高效热塑性三维打印元件的新方法。这种新的制造工艺承诺可以节省50-80%的材料，同时大幅提高挤出速率（增加10倍）。这一发展将HC3DP推向了与高分辨率混凝土3D打印相似的制造速度。然而，关于这种新型3D打印方法所实现的打印特征的基本研究尚缺失。因此，本文探讨了通过用户控制珠尺寸进行打印的方法（使用相同的喷嘴但不同的尺寸）。展示了正空气压力用于膨胀珠子时，挤出横截面的大小会受到影响。在不改变硬件设置的情况下，通过显著变化层高和宽度来打印多个样本，并对3DP样品的部分进行分析以确定3DP珠参数。此外，介绍了一组定制的3D打印喷嘴，以便将HC3DP珠分成不同的区域。迄今为止，只有如空心管之类的规则珠子用于3D打印。分析了这些定制部分的样品，研究其在3D打印中的行为表现。最后，进行大规模3D打印实验，以探讨如何使用中空挤出珠制造桥接、悬臂或非平面3D打印等打印特征。总的来说，本文提供了关于HC3DP基本3D打印行为的见解，展示了采用定制和可变横截面的新设计可能性，并最终提出了基于所述发现的研究方向。

关键词：
增材制造；定制珠横截面；中空芯三维打印；大规模3D打印；轻质材料；管状3DP。

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期刊名：3d printing and additive manufacturing

缩写：3D PRINT ADDIT MANUF

ISSN：2329-7662

e-ISSN：2329-7670

IF/分区：2.1/Q3

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Large-Scale Hollow-Core 3D Printing: Variable Cross-Section and Printing Features for Lightweight Plastic Elements

大规模中空核心3D打印：轻量化塑料元件的变截面及打印特征研究翻译改进

Large-scale vivid metasurface color printing using advanced 12-in. immersion photolithography

基于先进的12英寸浸入式光刻技术的大规模高真彩元表面印刷

Large Scale Printing of Robust HPLC Medium via Layer-by-Layer Stereolithography

通过层层立体光刻大规模印刷坚固的高效液相色谱介质

Large-Scale Noniridescent Structural Color Printing Enabled by Infiltration-Driven Nonequilibrium Colloidal Assembly

浸渗驱动非平衡胶体组装的大规模非彩虹结构性彩印技术Enabled by Infiltration-Driven Nonequilibrium ColloidalAssembly的大规模非彩虹结构性彩印技术

Combination of lightweight elements and nanostructured materials for batteries

轻质元素和纳米结构材料在电池中的结合应用研究

Breaking Fundamental Limitation of Flow-Induced Anisotropic Growth for Large-Scale and Fast Printing of Organic Single-Crystal Films

突破流动诱导各向异性生长的基本限制，实现有机单晶薄膜的大规模快速打印

Large-Scale Precise Printing of Ultrathin Sol-Gel Oxide Dielectrics for Directly Patterned Solution-Processed Metal Oxide Transistor Arrays

用于直接图案化溶液加工金属氧化物晶体管阵列的超薄凝胶氧化物绝缘的大规模精确印刷技术

High-density, high-frequency and large-scale electrohydrodynamic drop-on-demand jetting via a protruding polymer-based printhead design

基于聚合物的凸形喷头设计实现高密度、高频和大规模电水动力按需滴落式喷射

Large-Scale Hollow-Core 3D Printing: Variable Cross-Section and Printing Features for Lightweight Plastic Elements

大规模中空核心3D打印：轻量化塑料元件的变截面及打印特征研究 翻译改进

Large-scale vivid metasurface color printing using advanced 12-in. immersion photolithography

基于先进的12英寸浸入式光刻技术的大规模高真彩元表面印刷

Large Scale Printing of Robust HPLC Medium via Layer-by-Layer Stereolithography

通过层层立体光刻大规模印刷坚固的高效液相色谱介质

Large-Scale Noniridescent Structural Color Printing Enabled by Infiltration-Driven Nonequilibrium Colloidal Assembly

浸渗驱动非平衡胶体组装的大规模非彩虹结构性彩印技术Enabled by Infiltration-Driven Nonequilibrium ColloidalAssembly的大规模非彩虹结构性彩印技术

Combination of lightweight elements and nanostructured materials for batteries

轻质元素和纳米结构材料在电池中的结合应用研究

Breaking Fundamental Limitation of Flow-Induced Anisotropic Growth for Large-Scale and Fast Printing of Organic Single-Crystal Films

突破流动诱导各向异性生长的基本限制，实现有机单晶薄膜的大规模快速打印

Large-Scale Precise Printing of Ultrathin Sol-Gel Oxide Dielectrics for Directly Patterned Solution-Processed Metal Oxide Transistor Arrays

用于直接图案化溶液加工金属氧化物晶体管阵列的超薄凝胶氧化物绝缘的大规模精确印刷技术

High-density, high-frequency and large-scale electrohydrodynamic drop-on-demand jetting via a protruding polymer-based printhead design

基于聚合物的凸形喷头设计实现高密度、高频和大规模电水动力按需滴落式喷射

大规模中空核心3D打印：轻量化塑料元件的变截面及打印特征研究翻译改进