数字光处理(DLP)三维打印技术制造的多材料部件的尺寸精度

Q4 Engineering Journal of Mechanical Engineering Pub Date : 2024-01-30 DOI:10.47134/jme.v1i1.2191
A. Budi, Wijanarko Zidan Yusron, Mahardika Muslim
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引用次数: 0

摘要

三维打印制造的工件最初仅用于快速原型制作,现在已用于最终产品。在其发展过程中,需要一种能够适应创建多材料结构的方法,因为有一些复杂的结构需要在一个部件中同时使用硬质材料和弹性材料。在 DLP 3D 打印技术中,可以通过根据需要定期更换树脂材料来实现层压结构的多材料制造。多材料三维打印制造的一个重要方面是尺寸精度。本研究对 DLP 3D 打印机制造的多材料试样层厚精度进行了研究。试样采用统一的 CAD 设计制造,但材料层对的数量各不相同。试样每一层的厚度都经过测量。从测量结果可知,在 DLP 3D 打印技术中,由于树脂材料的色密度和光引发剂的浓度不同,会产生底层现象和紫外光穿透范围的影响,从而导致每个试样的厚度存在误差。
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Akurasi Dimensi Komponen Multi-material Hasil Manufaktur Digital Light Processing (DLP) 3D Printing
Workpieces resulting from 3D printing manufacturing which were initially only for rapid prototyping purposes, are now used for final products. In its development, a method is needed that can accommodate the creation of multi-material structures because there are complex structures that require hard materials and elastic materials in one part at once. Multi-material manufacturing with a laminate structure in DLP 3D printing can be done by changing the resin material periodically as needed. One important aspect in multi-material 3D printing manufacturing is dimensional accuracy. In this research, the accuracy of multi-material specimen layer thickness from DLP 3D printer manufacturing was studied. The specimens were manufactured with a uniform CAD design, but with varying numbers of material layer pairs. The thickness of each layer of the specimen is measured. From the measurement results, it is known that there is an error in the thickness of each specimen due to the bottom layer phenomenon and the influence of the penetration range of UV light in the DLP 3D printing technique due to differences in the color density of the resin material and the concentration of the photoinitiator.
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来源期刊
Journal of Mechanical Engineering
Journal of Mechanical Engineering Engineering-Mechanical Engineering
CiteScore
1.00
自引率
0.00%
发文量
0
审稿时长
16 weeks
期刊介绍: Journal of Mechanical Engineering (formerly known as Journal of Faculty of Mechanical Engineering) or JMechE, is an international journal which provides a forum for researchers and academicians worldwide to publish the research findings and the educational methods they are engaged in. This Journal acts as a link for the mechanical engineering community for rapid dissemination of their academic pursuits. The journal is published twice a year, in June and December, which discusses the progress of Mechanical Engineering advancement.
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