Life cycle assessment of metal products: A comparison between wire arc additive manufacturing and CNC milling

IF 3.9 Q2 ENGINEERING, INDUSTRIAL Advances in Industrial and Manufacturing Engineering Pub Date : 2023-05-01 DOI:10.1016/j.aime.2023.100117
Rafaela C. Reis , Samruddha Kokare , J.P. Oliveira , João C.O. Matias , Radu Godina
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引用次数: 5

Abstract

The industrial progress made throughout these years has led to great results in terms of producing fast and with good quality. However, the impacts related to that production, whether these are environmental, economic, or social have been, at times, neglected. The manufacturing sector, as one of the most polluting sector, felt the urge to adapt to this industrial progress and find ways to produce with improved sustainability goals without compromising the quality of the final product and the production time. Industry easily understood the benefits of this greener approach, and, with this, new sustainable technologies started to emerge. Additive Manufacturing (AM) is one of those technologies that provide alternative sustainable paths to traditional manufacturing. In order to generalize the benefits of AM production in terms of sustainability, when compared to traditional processes, further investigations must be conducted. In this sense, the proposed work has the intention of finding the environmental impacts associated with a particular AM technique for the fabrication of metal parts, Wire Arc Additive Manufacturing (WAAM). A practical work based on the production of three different complexity metal parts considering an additive (WAAM) and a subtractive (Computer Numerical Control (CNC) Milling) manufacturing process is developed. To quantify the environmental impacts of both processes, the author resorts to the Life Cycle Assessment (LCA) methodology. The assessment is conducted in the SimaPro 9.2 software, accordingly to ISO 14044:2006 standard. The results allow a comparison between both types of manufacturing and enable the suggestion of measures to decrease the environmental footprint of WAAM. It was found that WAAM approach leads to a material saving ranging between 40% and 70% and an environmental impact reduction in the range of 12%–47%, compared to the subtractive approach for fabricating the 3 geometries considered in this study. The conclusions obtained are specific to this particular application and, once more, it is acknowledged that in order to reach a global understanding relative to this technology's environmental implications, extra research still needs to be made.

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金属产品的生命周期评估:电弧增材制造与数控铣削的比较
这些年来,工业的进步在生产速度快、质量好方面取得了很大的成果。然而,与这种生产有关的影响,无论是环境的、经济的还是社会的,有时都被忽视了。制造业作为污染最严重的行业之一,迫切需要适应这种工业进步,并找到在不影响最终产品质量和生产时间的情况下提高可持续性目标的生产方法。工业界很容易理解这种更环保方法的好处,因此,新的可持续技术开始出现。增材制造(AM)是为传统制造提供替代可持续发展途径的技术之一。为了在可持续性方面推广增材制造的好处,与传统工艺相比,必须进行进一步的调查。从这个意义上说,拟议的工作旨在发现与金属零件制造的特定增材制造技术(线弧增材制造(WAAM))相关的环境影响。针对三种不同复杂金属零件的增材制造(WAAM)和减材制造(CNC铣削)工艺进行了实际研究。为了量化这两个过程的环境影响,作者采用了生命周期评价(LCA)方法。根据ISO 14044:2006标准,在SimaPro 9.2软件中进行评估。结果允许两种类型的制造之间的比较,并使措施的建议,以减少WAAM的环境足迹。研究发现,与本研究中考虑的3种几何形状的减法制造方法相比,WAAM方法可节省40%至70%的材料,减少12%至47%的环境影响。所得到的结论是针对这一特殊应用的,大家再次承认,为了对这项技术的环境影响达成全球性的了解,仍然需要进行更多的研究。
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来源期刊
Advances in Industrial and Manufacturing Engineering
Advances in Industrial and Manufacturing Engineering Engineering-Engineering (miscellaneous)
CiteScore
6.60
自引率
0.00%
发文量
31
审稿时长
18 days
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