光固化液体聚合物树脂制备的细胞结构的压缩性能。Polyjet Matrix

Q4 Engineering

Technische Mechanik Pub Date : 2022-01-10 DOI:10.17814/mechanik.2022.1.1

Mateusz Rudnik

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引用次数: 1

摘要

本文介绍了具有六边形胞体结构的圆柱形试样的抗压强度试验结果。样品采用MED 610材料，采用光固化技术制备液态聚合物树脂。抗压强度是根据印刷元件的静态压缩试验估计的。研究表明，PolyJet Matrix 3D打印技术使打印模型具有薄壁细胞结构，在保持适当强度性能的同时，可用于某些实用新型的设计和生产。

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Compressive properties of cell structures manufactured by photo-curing technology liquid polymer resins – Polyjet Matrix

The article presents the results of compressive strength tests of cylindrical samples with a hexagonal cell structure. The samples were made of MED 610 material using the photo-curing technology liquid polymer resins. The compressive strength was estimated on the basis of a static compression test of the printed elements. It has been shown that the PolyJet Matrix 3D printing technology enables the printing models with a thin-walled cell structure, which, while maintaining the appropriate strength properties, can be used in the design and production of certain utility models.

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来源期刊

Technische Mechanik Engineering-Mechanical Engineering

CiteScore

0.70

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： In technical mechanics , peer-reviewed papers from all fields of mechanics are published. A major concern is the rapid availability of research results for industry and science. In this sense, especially those contributions are preferred, which include not only new results and findings but also their practical application. The journal Engineering Mechanics publishes refereed original articles on Engineering Mechanics in its broadest sense. It is intended to provide a forum for a rapid transfer of research results to industry and science. In that sense contributions are encouraged the practical application of new results and scientific findings.