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Defect Networks and Waste Reduction in Additive Manufacturing

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  • Flavia-Petruța-Georgiana Stochioiu

    (Department of Biomedical Mechatronics and Robotics, National Institute of Research and Development in Mechatronics and Measurement Technique, 021631 Bucharest, Romania)

  • Roxana-Mariana Nechita

    (Department of Biomedical Mechatronics and Robotics, National Institute of Research and Development in Mechatronics and Measurement Technique, 021631 Bucharest, Romania)

  • Oliver Ulerich

    (Department of Biomedical Mechatronics and Robotics, National Institute of Research and Development in Mechatronics and Measurement Technique, 021631 Bucharest, Romania
    School of Doctoral Studies in Industrial Engineering and Robotics, National University of Science and Technology Politehnica Bucharest, 060042 Bucharest, Romania)

  • Constantin Stochioiu

    (Strength of Materials Department, Faculty of Industrial Engineering and Robotics, National University of Science and Technology Politehnica Bucharest, 060042 Bucharest, Romania)

Abstract

This study addresses a key challenge in Additive Manufacturing (AM): while it promises sustainable production, manufacturing defects often lead to significant material and energy waste. The purpose of this research is to apply the Decision-Making Trial and Evaluation Laboratory (DEMATEL) method to identify and map the cause-and-effect relationships among common AM defects. By doing this, the goal is to pinpoint the most influential ‘root’ causes, allowing for more targeted and effective quality improvements. The methodology is based on a qualitative approach using the expert judgment of a panel of six professionals. The DEMATEL analysis successfully sorted the defects into two categories: those that are primary causes and those that are symptoms or effects. The main findings show that contamination is the most significant causal factor, meaning that it strongly influences other defects. In contrast, dimensional inaccuracy is the most affected factor, acting as a symptom of other underlying issues. In conclusion, the study finds that focusing on mitigating root causes like contamination, warping, and porosity is crucial for achieving improvements across the process chain. This framework allows engineers to prioritize quality control efforts on the fundamental problems, rather than on superficial defects, thereby maximizing efficiency and waste reduction. Ultimately, this research provides a clear, actionable framework for improving quality control and promoting more sustainable manufacturing practices.

Suggested Citation

  • Flavia-Petruța-Georgiana Stochioiu & Roxana-Mariana Nechita & Oliver Ulerich & Constantin Stochioiu, 2025. "Defect Networks and Waste Reduction in Additive Manufacturing," Sustainability, MDPI, vol. 17(18), pages 1-23, September.
    • Handle: RePEc:gam:jsusta:v:17:y:2025:i:18:p:8498-:d:1755133
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    References listed on IDEAS

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    1. Iuliana Grecu & Roxana-Mariana Nechita & Flavia-Petruța-Georgiana Stochioiu & Oliver Ulerich & Corina-Ionela Dumitrescu & Cozmin Cristoiu, 2025. "A Decision-Oriented Framework for Sustainable Supply Chain Redesign: A DEMATEL-Based Approach," Logistics, MDPI, vol. 9(3), pages 1-14, July.
    2. Mehrdad Estiri & Jalil Heidary Dahooie & Amir Salar Vanaki & Audrius Banaitis & Arūnė Binkytė-Vėlienė, 2021. "A multi-attribute framework for the selection of high-performance work systems: the hybrid DEMATEL-MABAC model," Economic Research-Ekonomska Istraživanja, Taylor & Francis Journals, vol. 34(1), pages 970-997, January.
    3. Jiajian Huang & Longfei Li & Peng Jiang & Siqi Zhang, 2024. "DEMATEL-Based ANP Model for Identifying Critical Indicators in Sustainable Emergency Material Reserve Systems," Sustainability, MDPI, vol. 16(12), pages 1-25, June.
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