Investigation on curing strategies for metal binder jetting with Ti-6Al-4V

IF 4.2 Q2 ENGINEERING, MANUFACTURING

Additive manufacturing letters Pub Date : 2025-01-25 DOI:10.1016/j.addlet.2025.100272

Kevin Janzen , Timo Rieß , Claus Emmelmann

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Abstract

Metal binder jetting is a promising manufacturing technology that holds the potential to be a future competition technology to classic laser based additive manufacturing processes. In contrast to these technologies, however, metal binder jetting is much less mature. While sintering and debinding are already well known due to the spread of metal injection molding and powder deposition by laser powder bed fusion and its related processes, the often-neglected curing step represents a major challenge in process control. This study was therefore the first comprehensive investigation into the curing of metal binder jetting green parts from Ti-6Al-4 V powder with a powder size distribution below 25 µm. It was shown that the curing step has only a minor effect on the green part quality (surface roughness and density), but at the same time has a decisive influence on the green strength. In addition, position-dependent effects for the green density were detected, which indicate insufficient curing in the outer areas of the print box.

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Ti-6Al-4V金属粘结剂喷射固化策略研究

金属粘结剂喷射是一种很有前途的制造技术，有可能成为经典激光增材制造工艺的未来竞争技术。然而，与这些技术相比，金属粘结剂喷射技术远不成熟。由于金属注射成型和激光粉末床熔合粉末沉积及其相关工艺的普及，烧结和脱脂已经广为人知，但经常被忽视的固化步骤是过程控制的主要挑战。因此，本研究首次全面研究了粉末粒径分布小于25µm的ti - 6al - 4v粉末的金属粘结剂喷射绿色零件的固化。结果表明，养护步骤对生坯质量（表面粗糙度和密度）影响较小，但对生坯强度有决定性影响。此外，还检测到绿色密度的位置依赖效应，这表明印刷盒外部区域的固化不足。

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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