Design for reversed additive manufacturing low-melting-point alloys

IF 2.5 2区工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY Journal of Engineering Design Pub Date : 2023-09-26 DOI:10.1080/09544828.2023.2261096

Jingchao Jiang, Xiaoya Zhai, Liuchao Jin, Kang Zhang, Jun Chen, Qitao Lu, Wei-Hsin Liao

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Abstract

AbstractAdditive manufacturing (AM) technologies have been widely used in construction, medical, military, aerospace, fashion, etc. As AM advances, increasing new AM-based manufacturing methods have been developed (e.g. CNC machining and AM hybrid manufacturing). Recently, a new manufacturing method ‘reversed additive manufacturing (RAM)’ was proposed by the authors. First, the designed objective part needs to be reversed using a bounding box, obtaining the reversed outside part. Then fabricate the reversed outside part using AM with dissolvable material (e.g. PLA). After that, fill the reversed outside part using aimed material (e.g. low-melting-point alloys) of the objective part. Lastly, soak the whole part into the dissolvent to dissolve the outside part, obtaining the final objective part. In this paper, design for RAM is proposed. Print orientation, print parameter settings, injection parameter settings, shrinkage, cost and post-processing are discussed. Experiments with several lattice structures are carried out and case studies are demonstrated. The findings of this paper can benefit the design process for RAM, improving the design efficiency for RAM.KEYWORDS: Additive manufacturing3D Printingreversed additive manufacturinginjectiondesign AcknowledgementsThis study is funded by Research Grants Council (C4074-22G), Innovation and Technology Commission (MHP/043/20, under PiH/278/22), Hong Kong Special Administrative Region, China, The Chinese University of Hong Kong (Project ID: 3110174), Provincial Natural Science Foundation of Anhui (2208085QA01) and Fundamental Research Funds for the Central Universities (WK0010000075).Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationFundingThis work was supported by Chinese University of Hong Kong [grant number Project ID: 3110174]; Fundamental Research Funds for the Central Universities [grant number WK0010000075]; Innovation and Technology Commission [grant number MHP/043/20, under PiH/278/22]; Natural Science Foundation of Anhui Province [grant number 2208085QA01]; Research Grants Council, University Grants Committee [grant number C4074-22G].

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逆向增材制造低熔点合金的设计

摘要增材制造(AM)技术已广泛应用于建筑、医疗、军事、航空航天、时尚等领域。随着增材制造的进步，越来越多新的基于增材制造的制造方法被开发出来(例如CNC加工和增材制造混合制造)。最近，作者提出了一种新的制造方法“反向增材制造(RAM)”。首先，对设计好的目标部分使用边界框进行反求，得到反求的外部部分。然后使用AM和可溶解材料(例如PLA)制造反向的外部部件。之后，使用目标部件的目标材料(例如低熔点合金)填充相反的外部部件。最后将整个部分浸泡在溶剂中溶解外部部分，得到最终的目标部分。本文提出了RAM的设计方法。讨论了打印方向、打印参数设置、注射参数设置、收缩率、成本和后处理。对几种晶格结构进行了实验，并进行了实例分析。本文的研究结果有利于RAM的设计过程，提高了RAM的设计效率。本研究由研究资助局(C4074-22G)、创新科技委员会(MHP/043/20, PiH/278/22)、香港特别行政区、香港中文大学(项目ID: 3110174)、安徽省自然科学基金(2208085QA01)和中央高校基本科研业务费专项基金(WK0010000075)资助。披露声明作者未报告潜在的利益冲突。本研究由香港中文大学资助[资助号项目ID: 3110174];中央高校基本科研业务费专项资金[批准号:WK0010000075];创新科技署[资助编号MHP/043/20，隶属PiH/278/22];安徽省自然科学基金[批准号2208085QA01];大学教育资助委员会研究资助局[资助编号C4074-22G]。

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来源期刊

Journal of Engineering Design 工程技术-工程：综合

CiteScore

5.00

自引率

33.30%

发文量

审稿时长

4.5 months

期刊介绍： The Journal of Engineering Design is a leading international publication that provides an essential forum for dialogue on important issues across all disciplines and aspects of the design of engineered products and systems. The Journal publishes pioneering, contemporary, best industrial practice as well as authoritative research, studies and review papers on the underlying principles of design, its management, practice, techniques and methodologies, rather than specific domain applications. We welcome papers that examine the following topics: Engineering design aesthetics, style and form- Big data analytics in engineering design- Collaborative design in engineering- Engineering concept design- Creativity and innovation in engineering- Engineering design architectures- Design costing in engineering Design education and pedagogy in engineering- Engineering design for X, e.g. manufacturability, assembly, environment, sustainability- Engineering design management- Design risk and uncertainty in engineering- Engineering design theory and methodology- Designing product platforms, modularity and reuse in engineering- Emotive design, e.g. Kansei engineering- Ergonomics, styling and the design process- Evolutionary design activity in engineering (product improvement & refinement)- Global and distributed engineering design- Inclusive design and assistive engineering technology- Engineering industrial design and total design- Integrated engineering design development- Knowledge and information management in engineering- Engineering maintainability, sustainability, safety and standards- Multi, inter and trans disciplinary engineering design- New engineering product design and development- Engineering product introduction process[...]