A Life Cycle Analysis of Laser Cutter Embodied Impacts

Volume 6: 25th Design for Manufacturing and the Life Cycle Conference (DFMLC) Pub Date : 2020-08-17 DOI:10.1115/detc2020-22677

G. Moore, K. Goucher-Lambert, A. Agogino

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Abstract

There are broad claims about how makerspaces, Fab Labs, and hacker spaces are going to make production trends more sustainable and facilitate equitable access to manufacturing opportunities. Absent from most of these discussions are metrics for success: how will these personal fabrication spaces assess their status as self-sufficient, self-serving, and sustainable? Laser cutters are one of the more popular tools in personal fabrication spaces; yet there are gaps in the literature regarding their environmental impacts as compared to popular tools. Research on embodied environmental impacts is lacking for laser cutters and this study aims to fill a part of that gap by examining the embodied impacts of the Universal Laser System’s (ULS) VL-300 laser cutter. Results showed that 49.58 ReCiPe Endpoint H points were required to produce and distribute the ULS VL-300 laser cutter. Specifically, embodied impacts of the electronics — the micro-controllers required to operate the laser cutter — are responsible for the bulk (74%) of the overall laser cutter embodied impacts.

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激光切割机冲击的生命周期分析

关于创客空间、Fab Labs和黑客空间将如何使生产趋势更具可持续性，并促进公平获得制造机会，人们提出了广泛的主张。在这些讨论中，大多数都缺少成功的衡量标准:这些个人制造空间将如何评估其自给自足、自私自利和可持续发展的状态?激光切割机是个人制造空间中较受欢迎的工具之一;然而，与流行工具相比，它们对环境的影响在文献中存在差距。关于激光切割机的具体环境影响的研究是缺乏的，本研究旨在通过检查通用激光系统(ULS) VL-300激光切割机的具体影响来填补这一空白。结果表明，生产和销售ULS VL-300激光切割机需要49.58个处方端点H点。具体来说，电子设备的具体影响——操作激光切割机所需的微控制器——占整个激光切割机具体影响的大部分(74%)。

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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Volume 6: 25th Design for Manufacturing and the Life Cycle Conference (DFMLC)

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