Influence of the process parameters on the microstructure and the machinability of additively manufactured Ti-5553 titanium alloy

IF 4.6 2区 工程技术 Q2 ENGINEERING, MANUFACTURING CIRP Journal of Manufacturing Science and Technology Pub Date : 2024-09-11 DOI:10.1016/j.cirpj.2024.09.002
Berend Denkena , Julia K. Hufenbach , Benjamin Bergmann , Uta Kühn , Arnd Heckemeyer , Sebastian Worpenberg , Clemens Kunz
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Abstract

Additive Manufacturing (AM) technologies, particularly laser powder bed fusion (LPBF), are revolutionising the production of complex geometries and lightweight structures. Furthermore, LPBF allows to tailor the microstructure and resulting properties of metallic materials. This study focuses on titanium alloys, crucial for high-performance applications like aircraft components and medical implants. Although AM enables near-net-shape fabrication, many titanium parts still require machining to meet surface and dimensional standards. Titanium’s challenging machinability is well-documented for cast and wrought alloys, but only less is known about additively manufactured variants. In this work, the machinability of an additively manufactured Ti-5Al-5V-5Mo-3Cr alloy (Ti-5553) is investigated, focusing on chip formation, cutting forces, and tool wear across different LPBF process parameters. Four LPBF parameter sets were validated, and results were compared to conventional wrought sample. The findings reveal significant variations in machinability linked to LPBF parameters. Specifically, the highest tool loads and wear were observed for samples produced with the highest energy density of EV = 37.0 J/mm3, likely due to α-phase precipitation. In contrast, samples with lower energy densities (<29.1 J/mm3) exhibited up to 100% longer tool life. Concluding, this study highlights how the machinability of Ti-based components can be significantly influenced by the LPBF processing parameters.

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工艺参数对快速成型 Ti-5553 钛合金微观结构和加工性能的影响
快速成型(AM)技术,尤其是激光粉末床熔融技术(LPBF),正在彻底改变复杂几何形状和轻质结构的生产。此外,LPBF 还能定制金属材料的微观结构和性能。本研究的重点是对飞机部件和医疗植入物等高性能应用至关重要的钛合金。虽然 AM 可以实现近净成形制造,但许多钛零件仍需要机械加工才能达到表面和尺寸标准。对于铸造和锻造合金而言,钛的机加工性能具有挑战性,这一点已得到充分证实,但对于添加制造的变体,人们了解得还比较少。在这项工作中,研究了添加式制造的钛-5Al-5V-5Mo-3Cr 合金(Ti-5553)的可加工性,重点是不同 LPBF 工艺参数下的切屑形成、切削力和刀具磨损。对四组 LPBF 参数进行了验证,并将结果与传统的锻造样品进行了比较。研究结果表明,加工性能与 LPBF 参数的关系密切。具体来说,能量密度最高(EV = 37.0 J/mm3)的样品刀具负载和磨损最大,这可能是由于α相析出所致。相比之下,能量密度较低的样品(29.1 J/mm3)的工具寿命最多可延长 100%。总之,本研究强调了钛基零件的可加工性如何受到 LPBF 加工参数的显著影响。
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来源期刊
CIRP Journal of Manufacturing Science and Technology
CIRP Journal of Manufacturing Science and Technology Engineering-Industrial and Manufacturing Engineering
CiteScore
9.10
自引率
6.20%
发文量
166
审稿时长
63 days
期刊介绍: The CIRP Journal of Manufacturing Science and Technology (CIRP-JMST) publishes fundamental papers on manufacturing processes, production equipment and automation, product design, manufacturing systems and production organisations up to the level of the production networks, including all the related technical, human and economic factors. Preference is given to contributions describing research results whose feasibility has been demonstrated either in a laboratory or in the industrial praxis. Case studies and review papers on specific issues in manufacturing science and technology are equally encouraged.
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