3D-printing quality in relation to melt flow and fusion behavior of polymer materials

Preface: Novel Trends in Rheology VIII Pub Date : 2019-05-21 DOI:10.1063/1.5109498

D. Auhl, Falk Rohnstock, Oliver Löschke, K. Schäfer, Peng Wang, M. Wagner

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引用次数: 10

Abstract

Full fusion and layer contact are essential for the mechanical, but also optical quality of 3D-printed parts. A comprehensive study on relations of 3D-printing quality to melt flow and fusion behavior is presented for a wide range of thermoplastic polymer materials. We investigated the influence of polymer structure and chain length as well as processing temperature, which largely determine material viscosity and surface tension. Furthermore, the influence of particle or layer dimensions is investigated. Comparisons of experimental and simulated data using well-established models and sets of parameters allow drawing valuable conclusions for optimizations of 3D-printing conditions and product quality.Full fusion and layer contact are essential for the mechanical, but also optical quality of 3D-printed parts. A comprehensive study on relations of 3D-printing quality to melt flow and fusion behavior is presented for a wide range of thermoplastic polymer materials. We investigated the influence of polymer structure and chain length as well as processing temperature, which largely determine material viscosity and surface tension. Furthermore, the influence of particle or layer dimensions is investigated. Comparisons of experimental and simulated data using well-established models and sets of parameters allow drawing valuable conclusions for optimizations of 3D-printing conditions and product quality.

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3d打印质量与聚合物材料的熔体流动和熔合行为有关

完全融合和层接触对于3d打印部件的机械质量和光学质量至关重要。针对广泛的热塑性高分子材料，对3d打印质量与熔体流动和熔合行为的关系进行了全面研究。我们研究了聚合物结构和链长以及加工温度对材料粘度和表面张力的影响。此外，还研究了颗粒尺寸和层尺寸的影响。使用完善的模型和参数集对实验和模拟数据进行比较，可以得出有价值的结论，以优化3d打印条件和产品质量。完全融合和层接触对于3d打印部件的机械质量和光学质量至关重要。针对广泛的热塑性高分子材料，对3d打印质量与熔体流动和熔合行为的关系进行了全面研究。我们研究了聚合物结构和链长以及加工温度对材料粘度和表面张力的影响。此外，还研究了颗粒尺寸和层尺寸的影响。使用完善的模型和参数集对实验和模拟数据进行比较，可以得出有价值的结论，以优化3d打印条件和产品质量。

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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Preface: Novel Trends in Rheology VIII

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