尼龙长丝3D打印尺寸精度的工艺变量优化

IJNMT (International Journal of New Media Technology) Pub Date : 2022-07-05 DOI:10.31937/ijnmt.v9i1.2398

Hasdiansah Hasdiansah

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引用次数: 0

摘要

摘要制造工艺在过去的50年里导致了制造业非常快速和持续的进步，其中一个进步的制造工艺是3D打印技术。本研究中使用的长丝类型是尼龙长丝。本研究旨在获得尺寸精度的最佳工艺参数。本研究采用的方法为Taguchi L27 OA法。使用的工艺参数有喷嘴温度、不良温度、层厚、流量、印刷速度、重叠、填充密度、填充速度、壁厚。结果表明:最优工艺参数为喷嘴温度(256℃)、不良温度(96℃)、层厚(0.2mm)、流量(90%)、打印速度(30mm/s)、重叠(10%);准确;维度;尼龙;参数;

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Optimization of Process Variables in 3D Printing on Dimensional Accuracy Using Nylon Filaments

Abstract—Manufacturing process over the past 50 years has led to very rapid and continuous progress in the manufacturing industry, one of the manufacturing processes that has progressed is 3D printing technology. The type of filament used in this research is nylon filament. This study aims to obtain optimal process parameters for dimensional accuracy. The method used in this study is the Taguchi L27 OA method. The process parameters used are nozzle temperature, bad temperature, layer thickness, flowrate, printing speed, overlap, infill density, infill speed, wall thickness. The results showed that the optimal process parameters are nozzle temperature(256°C), bad temperature(96°C), layer thickness(0.2mm), flowrate(90%), printing speed(30mm/s), overlap (10%), Keywords: 3D printing; Accuracy; Dimensions; Nylon; Parameter;

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IJNMT (International Journal of New Media Technology)

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