Additive Manufacturing Application to a Ship Propeller Model for Experimental Activity in the Cavitation Tunnel

IF 0.5 4区工程技术 Q4 ENGINEERING, MARINE

Journal of Ship Production and Design Pub Date : 2019-11-01 DOI:10.5957/JSPD.11170055

T. Cilia, D. Bertetta, P. Gualeni, G. Tani, M. Viviani

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引用次数: 4

Abstract

Additive manufacturing (AM), or three dimensional printing, is a modern way to build objects with possibly a high degree of accuracy and favorable cost/benefit ratio. This approach is widely used by many manufacturing industries and a certain interest for this innovative production technology is also growing in the ship design and production field. To this regard, the experimental activity at the model scale is often necessary for the ship performance assessment in the design phase. In the article, preliminary results of a propeller model for the cavitation tunnel, built with additive technology, are presented, showing the strengths and weaknesses of the printed model. Moreover, as an introductive overview, different AM technologies are briefly described, with the aim to point out potential applicability to ships. Additive Manufacturing (AM), also known as 3D printing, is a well-known process to shape objects by layering materials under numerical control until the completion of the work. It represents an innovative approach because it is based on the addition of material instead of carving material from a block (like CNC—Computer Numerical Control, i.e. a manufacturing approach relying on mills, drills, and other numerically controlled tools). AM is deemed as an outstanding flywheel for innovation in the productive world, and the shipbuilding industry seems to have started realizing the advantages of this technology, already largely used, e.g., in the automotive, aerospace, biomedical, and energy industries (Shahi 2016; Satish Prakasha et al. 2018). In this perspective, an introductive overview of different AM typologies is presented in the article, to possibly understand how it could be used to improve ship design and production. The overview includes the applicable technologies, focusing on the printing process, the materials, and the mechanical properties of the final printed object. A practical example of AM technology application is presented regarding the printing of the blades of a ship's propeller model for experiments in a cavitation tunnel.

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增材制造在船舶螺旋桨模型空化试验中的应用

增材制造(AM)，或三维打印，是一种现代的方式来建立物体可能具有高度的精度和有利的成本/效益比。这种方法被许多制造行业广泛使用，并且在船舶设计和生产领域对这种创新生产技术的一定兴趣也在增长。为此，在设计阶段进行船舶性能评估，往往需要模型尺度的实验活动。本文介绍了用增材制造技术建立的空化隧道螺旋桨模型的初步结果，并指出了打印模型的优缺点。此外，作为介绍性概述，简要描述了不同的AM技术，目的是指出对船舶的潜在适用性。增材制造(AM)，也称为3D打印，是一种在数控下通过分层材料来塑造物体直到完成工作的众所周知的过程。它代表了一种创新的方法，因为它是基于添加材料而不是从块中雕刻材料(如cnc -计算机数控，即依靠铣床，钻头和其他数控工具的制造方法)。增材制造被认为是生产领域创新的杰出飞轮，造船业似乎已经开始意识到这项技术的优势，已经在汽车、航空航天、生物医学和能源行业得到了广泛应用(Shahi 2016;Satish Prakasha et al. 2018)。从这个角度来看，文章中提出了不同AM类型的介绍性概述，以可能理解如何使用它来改进船舶设计和生产。概述包括适用的技术，重点是打印过程，材料和最终打印对象的机械性能。介绍了利用增材制造技术在空化隧道中打印船舶螺旋桨实验模型叶片的实例。

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

Journal of Ship Production and Design ENGINEERING, MARINE-

CiteScore

1.10

自引率

0.00%

发文量

期刊介绍： Original and timely technical papers addressing problems of shipyard techniques and production of merchant and naval ships appear in this quarterly publication. Since its inception, the Journal of Ship Production and Design (formerly the Journal of Ship Production) has been a forum for peer-reviewed, professionally edited papers from academic and industry sources. As such it has influenced the worldwide development of ship production engineering as a fully qualified professional discipline. The expanded scope seeks papers in additional areas, specifically ship design, including design for production, plus other marine technology topics, such as ship operations, shipping economics, and safety. Each issue contains a well-rounded selection of technical papers relevant to marine professionals.