大桶光聚合和钢制工具模具对注塑成型和包覆成型拉伸试样性能的比较评估

IF 3.2 4区 工程技术 Q2 ENGINEERING, CHEMICAL
Xun Jian, Ke Gong, Vicente Moritz, Alexandre Portela, Yinshi Lu, Wenyi Du, Ian Major
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引用次数: 0

摘要

本研究探讨了使用大桶聚合立体光刻技术(SLA)制造模具,随后用于注塑成型(IM)和拉伸试样的包覆成型,并与使用金属模具生产的试样进行直接比较。结果首先发现 SLA 制模的制造时间非常短,约为 6 小时,比传统方法有了很大改进。机械测试表明,在所有包覆成型批次中,来自 SLA 制造模具的拉伸试样具有最高的拉伸强度。这一性能与使用金属模具生产的拉伸棒一致,证明了 SLA 制造的模具在包覆成型应用中的可行性,并突出了 FDM 在定制最终产品性能方面的潜力。然而,模具类型的变化会影响最终试样的尺寸公差和拉伸强度。与使用 SLA 制造的模具(46.9-55.9 兆帕)相比,金属模具制造的拉伸棒具有更高的尺寸精度和最大拉伸强度(50.6-61.7 兆帕)。这些差异归因于 SLA 逐层结构固有的粗糙表面光洁度,以及较低的热传导率和不均匀冷却造成的内应力和缺陷。总之,本研究强调了 SLA 制成的模具在包覆成型中的应用前景,可降低制造成本,提高设计自由度。研究结果表明,SLA 有可能彻底改变模具制造工艺,从而扩大其应用范围,优化具有定制特性的聚合物部件的生产。对具有不同几何形状的 FFF 预成型件进行包覆成型,以最终确定试样。包覆成型的接合点配置提高了拉伸性能。与 FFF 试样相比,包覆成型的尺寸精度更高。SLA 模具制备大大降低了制造成本。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparative evaluation of vat photopolymerization and steel tool molds on the performance of injection molded and overmolded tensile specimens
This study explores the use of vat polymerization stereolithography (SLA) for fabricating mold tooling, subsequently utilized in injection molding (IM) and overmolding of tensile specimens and directly compared to those produced using metal molds. The results first find the manufacturing time for an SLA‐fabricated mold is remarkably short, approximately 6 h, presenting a substantial improvement over traditional methods. Mechanical testing revealed that the tensile specimens from the SLA‐fabricated molds exhibited the highest tensile strength among all overmolding batches. This performance was consistent with the tensile bars produced using metal molds, demonstrating the viability of SLA‐fabricated molds for overmolding applications and highlighting the potential of FDM to customize the properties of final products. However, variations in mold types impacted the dimensional tolerance and tensile strength of the final specimens. Metal mold‐fabricated tensile bars exhibited superior dimensional accuracy and maximum tensile strength (50.6–61.7 MPa) compared to those produced with SLA‐fabricated molds (46.9–55.9 MPa). These differences are attributed to the rougher surface finish inherent to the layer‐by‐layer construction of SLA and the internal stresses and defects resulting from lower thermal conductivity and uneven cooling. In conclusion, this study underscores the promising future applications of SLA‐fabricated molds in overmolding, offering reduced manufacturing costs and enhanced design freedom. The findings support the potential of SLA to revolutionize mold fabrication, thereby extending its utility and optimizing the production of polymer components with customized properties.Highlights SLA molds compared to metal molds for direct injection molding and overmolding. FFF preforms with varied geometries were overmolded to finalize the specimens. Joint configurations in overmolding improved tensile performance. Overmolding showed better dimensional accuracy than FFF specimens. SLA mold preparation significantly reduced manufacturing costs.
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来源期刊
Polymer Engineering and Science
Polymer Engineering and Science 工程技术-高分子科学
CiteScore
5.40
自引率
18.80%
发文量
329
审稿时长
3.7 months
期刊介绍: For more than 30 years, Polymer Engineering & Science has been one of the most highly regarded journals in the field, serving as a forum for authors of treatises on the cutting edge of polymer science and technology. The importance of PE&S is underscored by the frequent rate at which its articles are cited, especially by other publications - literally thousand of times a year. Engineers, researchers, technicians, and academicians worldwide are looking to PE&S for the valuable information they need. There are special issues compiled by distinguished guest editors. These contain proceedings of symposia on such diverse topics as polyblends, mechanics of plastics and polymer welding.
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