OPTIMIZATION OF ACCURACY AND SURFACE ROUGHNESS OF 3D SLA PRINTED MATERIALS WITH RESPONSE SURFACE METHOD

International Journal of 3D Printing Technologies and Digital Industry Pub Date : 2023-11-29 DOI:10.46519/ij3dptdi.1334068

Mehmet Albaşkara, Serkan Türkyilmaz

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Abstract

3D printers are used frequently for rapid prototyping and production. SLA (stereolithographic) printers, widely used in areas requiring precision production, form the final shape by solidifying the liquid resin with UV rays. In SLA printing, the final figure is created by changing many printing parameters. For this reason, surface integrity and precision of measurements vary. Dimensional accuracy (DA) and surface roughness (SR) outputs should be investigated for precise printing. Therefore, the effects on SR and DA output parameters were investigated by changing the layer height, exposure time, and lift input parameters with the Response Surface Method (RSM). The effective parameters for both outputs are layer height and lift. As the layer height and lift increased, the SR and DA values of the printed parts increased. The predicted results calculated with the regression equations and the experimental results were quite close. Optimum input parameters were found by multi-response optimization. Accordingly, the 8th experiment, 0.05mm-4s-1.5mm, was the best parameter. The difference between the predicted and experimental values for multi-response optimization was 4.28% for SR and 0.27% for DA. Thus, effective parameters for SR and DA have been determined for precision production in SLA printers.

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用响应曲面法优化 3D Sla 打印材料的精度和表面粗糙度

3D 打印机常用于快速原型制作和生产。SLA（立体光刻）打印机广泛应用于需要精密生产的领域，通过紫外线固化液态树脂形成最终形状。在 SLA 打印中，通过改变许多打印参数来形成最终图形。因此，表面完整性和测量精度也各不相同。为实现精确打印，应研究尺寸精度（DA）和表面粗糙度（SR）输出。因此，采用响应面法（RSM），通过改变层高、曝光时间和升降输入参数，研究了对 SR 和 DA 输出参数的影响。层高和升程是两种输出的有效参数。随着层高和升程的增加，印刷部件的 SR 值和 DA 值也随之增加。用回归方程计算出的预测结果与实验结果非常接近。通过多响应优化找到了最佳输入参数。因此，第 8 次实验中的 0.05mm-4s-1.5mm 是最佳参数。多响应优化的预测值和实验值之间的差异为：SR 为 4.28%，DA 为 0.27%。因此，确定了 SR 和 DA 的有效参数，可用于 SLA 打印机的精密生产。

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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International Journal of 3D Printing Technologies and Digital Industry

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