Thermal-fluid modeling and simulation of Ti-6Al-4V alloy filaments during shaping in the hot-end of material extrusion additive manufacturing

IF 6.1 1区 工程技术 Q1 ENGINEERING, MANUFACTURING Journal of Manufacturing Processes Pub Date : 2024-09-25 DOI:10.1016/j.jmapro.2024.09.040
Gaius Chukwuka Nzebuka , Chukwuzubelu Okenwa Ufodike , Al Mazedur Rahman , Matthew B. Minus , Chijioke Peter Egole
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Abstract

Continuous progress in material extrusion additive manufacturing is motivated by the need to produce functional parts at a low cost for medical, aerospace, and automotive applications. A significant innovation is impregnating a polymeric melt with metal powder (particle) to produce a filament that will be 3D printed using a low-cost desktop printer. The presence of metal particles affects the complex flow dynamic and temperature profile during processing through the hot-end of the 3D nozzle. The current study employs numerical simulation to analyze the effect of powder content on the outlet flow field during the melting of polymer-filled metal filament material extrusion additive manufacturing. Titanium 64-5 filament was experimentally measured to obtain thermophysical properties and another Titanium 64-5 filament thermophysical properties were empirically determined. Each filament was simulated using a finite element method to obtain temperature, viscosity, and shear rate data. A detailed discussion of the implementation of the thermal-fluid model was presented. The results obtained indicate that the two types of filaments' sensitivity to the feeding rates differ at a certain region of the extrusion regime. Also, further simulation was performed to investigate the response of the flow fields with the powder contents. The temperature and viscosity results obtained at the nozzle outlet indicate that at a high powder content, the printing of the polymer-filled metal filament can be performed at a high extrusion rate with possible extrudate shape stability. The thermal-fluid model and simulation can be used for selecting process parameters for any new binder-metal particle formulation.
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材料挤压增材制造热端成型过程中 Ti-6Al-4V 合金长丝的热流体建模与模拟
由于医疗、航空航天和汽车应用领域需要以低成本生产功能部件,材料挤压快速成型技术不断取得进展。一项重要的创新是在聚合物熔体中浸渍金属粉末(颗粒),生产出丝状物,然后使用低成本桌面打印机进行三维打印。金属颗粒的存在会影响三维喷嘴热端加工过程中复杂的流动动态和温度曲线。本研究利用数值模拟分析了聚合物填充金属长丝材料挤出增材制造熔化过程中粉末含量对出口流场的影响。实验测量了钛 64-5 长丝的热物理性质,并根据经验确定了另一种钛 64-5 长丝的热物理性质。使用有限元法对每种长丝进行模拟,以获得温度、粘度和剪切率数据。对热流体模型的实施进行了详细讨论。结果表明,在挤压过程的某个区域,两种长丝对喂料速率的敏感性不同。此外,还进一步模拟研究了流场对粉末含量的响应。在喷嘴出口处获得的温度和粘度结果表明,在粉末含量较高的情况下,聚合物填充金属丝可以在较高的挤出速率下进行打印,并可能保证挤出物形状的稳定性。热流体模型和模拟可用于为任何新的粘合剂-金属颗粒配方选择工艺参数。
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来源期刊
Journal of Manufacturing Processes
Journal of Manufacturing Processes ENGINEERING, MANUFACTURING-
CiteScore
10.20
自引率
11.30%
发文量
833
审稿时长
50 days
期刊介绍: The aim of the Journal of Manufacturing Processes (JMP) is to exchange current and future directions of manufacturing processes research, development and implementation, and to publish archival scholarly literature with a view to advancing state-of-the-art manufacturing processes and encouraging innovation for developing new and efficient processes. The journal will also publish from other research communities for rapid communication of innovative new concepts. Special-topic issues on emerging technologies and invited papers will also be published.
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