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大尺寸陶瓷材料DLP 3D打印双光源协同固化系统模拟与实验研究

张晓楠付平赵文捷吴俊飞郑本禹徐正本

陶瓷Issue(9)：34-37,4.

大尺寸陶瓷材料DLP 3D打印双光源协同固化系统模拟与实验研究

Simulation and Experimental Study of a Dual-light Source Co-curing System for DLP 3D Printing of Large-size Ceramic Materials

张晓楠 ¹付平 ¹赵文捷 ²吴俊飞 ¹郑本禹 ¹徐正本¹

作者信息

1. 青岛科技大学机电工程学院山东青岛 266061
2. 青岛科技大学中德科技学院山东青岛 266061
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摘要

Abstract

Aiming at the key technical bottlenecks faced in DLP 3D printing technology for large-size ceramic materials,such as insufficient interlayer bonding force and unreliable initial adhesion,we designed a dual-light source co-curing system,constructed a dual-light source electromagnetic field coupling model,and verified that the electric field strength and curing depth of the dual-light source scheme are significantly improved compared with that of the single-light source.Completed the dual-light source co-curing and large-size ceramic sample printing experiments,surface defects and me-chanical properties of the printed sample analysis,the results show that it is better than the single-light source mode in the interlayer bonding force and overall strength.

关键词

大尺寸陶瓷材料/DLP 3D打印/双光源

Key words

Large-size ceramic materials/DLP 3D printing/Dual-light source

分类

化学化工

引用本文复制引用

张晓楠,付平,赵文捷,吴俊飞,郑本禹,徐正本..大尺寸陶瓷材料DLP 3D打印双光源协同固化系统模拟与实验研究[J].陶瓷,2025,(9):34-37,4.

基金项目

山东省自然科学基金项目(项目编号:ZR2023MB086). （项目编号:ZR2023MB086）

陶瓷

ISSN：1002-2872

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