A concept for assessing environmental sustainability and circularity in the development phase on the basis of a sustainable PLM strategy

DS 133: Proceedings of the 35th Symposium Design for X (DFX2024)

Year: 2024
Editor: Dieter Krause; Kristin Paetzold-Byhain; Sandro Wartzack
Author: Kristin Paetzold-Byhain; Kathrin Greiff; Berfin Bayram; Bernhard Saske
Series: DfX
Institution: Institute of Machine Elements and Machine Design (IMM), TU Dresden; Institute for Anthropogenic Material Cycles (ANTS), RWTH Aachen University
Page(s): 173-181
DOI number: 10.35199/dfx2024.18

Abstract

Technological advancements to improve the mechanical behaviour of fiber reinforced plastic (FRP) make sense as a result. In the context of the circular economy and sustainability, however, a holistic view of the entire product life cycle is required due to possible burden shifting in order to be able to take sustainability aspects into account in the use of FRP as part of development decisions. Life cycle assessment (LCA) and material flow analysis (MFA) provide metrics for this, but also require parameters from the manufacturing process in order to be able to derive comparative statements. Assessing the potential environmental impacts and circular economy potential of products in the design phase is essential for the circular economy. To achieve this, the integration of Product lifecycle management (PLM) and LCA is vital. In addition, for macro-level assessment, further integration of MFA and different circular economy indicators becomes crucial for decision-making. By anchoring these in information models for the PLM, they can be made accessible for development decisions.

Keywords: Lebenszyklusanalyse, PLM-Stragegie, Systemmodell

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