Cost and Time Reduction of Industrial Mold Design and Manufacturing by Implementing Additive Manufacturing for Premature Neonatal Prong

IF 1.3 Q3 PEDIATRICS

Current Pediatric Reviews Pub Date : 2024-01-24 DOI:10.2174/0115733963253344231214070824

K. Mirnia, Atousa Kialashaki, Mohammed Heidarzadeh, A. Maghsoudi, Zahra Pourashouri, Abbas Abaei Kashan

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引用次数: 0

Abstract

For a long time, molding was one of the most important methods of producing metal, ceramic, and polymer materials. The two essential factors in this method were always cost and time. Technology advancements have made it possible to design in 3D using a computer and additive manufacturing. This article covers methods for using 3D printers to save time and money in the process of creating the final product. The "Prong" molds for premature neonatal respiratory aid were designed and produced based on neonatologists' considerations. The study was conducted on fifteen very low birth neonates at Alzahra Hospital in Tabriz University from September 2017 to September 2019. In the first section, we described dental plaster material for molding. When using this material, the printing material must be selected and the parameters, like melting temperature and printer speed, must be controlled to achieve acceptable quality for the final sample. CAD software can be used to print various objects if the final 3D design is appropriate. We used additive manufacturing technology to create a new design and successfully resolved bubble issues at a low cost through a combination of creativity and experimentation. The new mold has cavities that allow the silicon to occupy the entire space and escape any bubbles. The use of 3D printers allows us to achieve the best design for the prong mold while reducing both production costs and time. The ultimate mold made of aluminum was finally produced by the CNC machine. The final product was tested at Al-Zahra Hospital in Tabriz, Iran, and the results were satisfactory, with no reports of necrosis on the babies' noses. none

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通过对早产新生儿棱镜实施增材制造，降低工业模具设计和制造的成本并缩短时间

长期以来，成型是生产金属、陶瓷和聚合物材料的最重要方法之一。这种方法的两个基本因素始终是成本和时间。随着技术的进步，利用计算机和快速成型技术进行三维设计已成为可能。本文将介绍使用三维打印机的方法，以节省制造最终产品过程中的时间和成本。早产新生儿呼吸辅助装置的 "Prong "模具是根据新生儿科医生的考虑设计和制作的。该研究于 2017 年 9 月至 2019 年 9 月在大不里士大学 Alzahra 医院对 15 名出生率极低的新生儿进行了研究。在第一部分，我们介绍了用于成型的牙石膏材料。使用这种材料时，必须选择打印材料，并控制熔化温度和打印机速度等参数，使最终样品达到可接受的质量。如果最终的三维设计合适，CAD 软件可用于打印各种物体。我们利用增材制造技术创造了一种新的设计，并通过创意和实验的结合，以较低的成本成功解决了气泡问题。新模具的空腔可以让硅占据整个空间，避免气泡的产生。3D 打印机的使用使我们能够实现棱形模具的最佳设计，同时降低生产成本，缩短生产时间。最终，数控机床制作出了铝制模具。最终产品在伊朗大不里士的 Al-Zahra 医院进行了测试，结果令人满意，没有发现婴儿鼻子坏死的情况。

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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来源期刊

Current Pediatric Reviews PEDIATRICS-

CiteScore

4.30

自引率

0.00%

发文量

期刊介绍： Current Pediatric Reviews publishes frontier reviews on all the latest advances in pediatric medicine. The journal’s aim is to publish the highest quality review articles dedicated to clinical research in the field. The journal is essential reading for all researchers and clinicians in pediatric medicine.