Quantifizierung des materialbezogenen ökologischen Impacts von topologieoptimierten Multimaterialbauteilen

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Authors

  • Kevin Herrmann
  • Behrend Bode
  • Johanna Wurst
  • Paul Christoph Gembarski
  • Iryna Mozgova
  • Roland Lachmayer

Research Organisations

View graph of relations

Details

Translated title of the contributionQuantification of the material-related environmental impact of topology-optimized multi-material components
Original languageGerman
Title of host publicationDS 119: Proceedings of the 33rd Symposium Design for X (DFX2022)
EditorsDieter Krause, Kristin Paetzold, Sandro Wartzack
Publication statusPublished - 2022
Event33rd Symposium Design for X, DFX 2022 - Hamburg, Germany
Duration: 22 Sept 202223 Sept 2022

Publication series

NameDfX

Abstract

When developing products, engineers face challenges in solving technical, economical, but also ecological conflicts of objectives. A common technical conflict is the contradictory behaviour between the stiffness and mass of components. A possibility to resolve this contradiction is offered by multi-material components, which are made possible by a loadoptimised design. Taking the example of topology-optimised multi-material components, this article shows a method for taking the ecological impact of raw material extraction into account in selecting suitable designs by offsetting a performance index with the results of ecological impact assessment calculations. These results are analysed in order to identify a possible solution according to the technical-ecological conflict of objectives.

ASJC Scopus subject areas

Cite this

Quantifizierung des materialbezogenen ökologischen Impacts von topologieoptimierten Multimaterialbauteilen. / Herrmann, Kevin; Bode, Behrend; Wurst, Johanna et al.
DS 119: Proceedings of the 33rd Symposium Design for X (DFX2022). ed. / Dieter Krause; Kristin Paetzold; Sandro Wartzack. 2022. (DfX).

Research output: Chapter in book/report/conference proceedingConference contributionResearchpeer review

Herrmann, K, Bode, B, Wurst, J, Gembarski, PC, Mozgova, I & Lachmayer, R 2022, Quantifizierung des materialbezogenen ökologischen Impacts von topologieoptimierten Multimaterialbauteilen. in D Krause, K Paetzold & S Wartzack (eds), DS 119: Proceedings of the 33rd Symposium Design for X (DFX2022). DfX, 33rd Symposium Design for X, DFX 2022, Hamburg, Germany, 22 Sept 2022. https://doi.org/10.35199/dfx2022.01
Herrmann, K., Bode, B., Wurst, J., Gembarski, P. C., Mozgova, I., & Lachmayer, R. (2022). Quantifizierung des materialbezogenen ökologischen Impacts von topologieoptimierten Multimaterialbauteilen. In D. Krause, K. Paetzold, & S. Wartzack (Eds.), DS 119: Proceedings of the 33rd Symposium Design for X (DFX2022) (DfX). https://doi.org/10.35199/dfx2022.01
Herrmann K, Bode B, Wurst J, Gembarski PC, Mozgova I, Lachmayer R. Quantifizierung des materialbezogenen ökologischen Impacts von topologieoptimierten Multimaterialbauteilen. In Krause D, Paetzold K, Wartzack S, editors, DS 119: Proceedings of the 33rd Symposium Design for X (DFX2022). 2022. (DfX). doi: 10.35199/dfx2022.01
Herrmann, Kevin ; Bode, Behrend ; Wurst, Johanna et al. / Quantifizierung des materialbezogenen ökologischen Impacts von topologieoptimierten Multimaterialbauteilen. DS 119: Proceedings of the 33rd Symposium Design for X (DFX2022). editor / Dieter Krause ; Kristin Paetzold ; Sandro Wartzack. 2022. (DfX).
Download
@inproceedings{9964e33b1b204e30a9685036c25f072a,
title = "Quantifizierung des materialbezogenen {\"o}kologischen Impacts von topologieoptimierten Multimaterialbauteilen",
abstract = "When developing products, engineers face challenges in solving technical, economical, but also ecological conflicts of objectives. A common technical conflict is the contradictory behaviour between the stiffness and mass of components. A possibility to resolve this contradiction is offered by multi-material components, which are made possible by a loadoptimised design. Taking the example of topology-optimised multi-material components, this article shows a method for taking the ecological impact of raw material extraction into account in selecting suitable designs by offsetting a performance index with the results of ecological impact assessment calculations. These results are analysed in order to identify a possible solution according to the technical-ecological conflict of objectives.",
keywords = "environmental impact, life cycle assessment, light weight design, tailored forming, topology optimization",
author = "Kevin Herrmann and Behrend Bode and Johanna Wurst and Gembarski, {Paul Christoph} and Iryna Mozgova and Roland Lachmayer",
year = "2022",
doi = "10.35199/dfx2022.01",
language = "Deutsch",
series = "DfX",
editor = "Dieter Krause and Paetzold, {Kristin } and Sandro Wartzack",
booktitle = "DS 119: Proceedings of the 33rd Symposium Design for X (DFX2022)",
note = "33rd Symposium Design for X, DFX 2022 ; Conference date: 22-09-2022 Through 23-09-2022",

}

Download

TY - GEN

T1 - Quantifizierung des materialbezogenen ökologischen Impacts von topologieoptimierten Multimaterialbauteilen

AU - Herrmann, Kevin

AU - Bode, Behrend

AU - Wurst, Johanna

AU - Gembarski, Paul Christoph

AU - Mozgova, Iryna

AU - Lachmayer, Roland

PY - 2022

Y1 - 2022

N2 - When developing products, engineers face challenges in solving technical, economical, but also ecological conflicts of objectives. A common technical conflict is the contradictory behaviour between the stiffness and mass of components. A possibility to resolve this contradiction is offered by multi-material components, which are made possible by a loadoptimised design. Taking the example of topology-optimised multi-material components, this article shows a method for taking the ecological impact of raw material extraction into account in selecting suitable designs by offsetting a performance index with the results of ecological impact assessment calculations. These results are analysed in order to identify a possible solution according to the technical-ecological conflict of objectives.

AB - When developing products, engineers face challenges in solving technical, economical, but also ecological conflicts of objectives. A common technical conflict is the contradictory behaviour between the stiffness and mass of components. A possibility to resolve this contradiction is offered by multi-material components, which are made possible by a loadoptimised design. Taking the example of topology-optimised multi-material components, this article shows a method for taking the ecological impact of raw material extraction into account in selecting suitable designs by offsetting a performance index with the results of ecological impact assessment calculations. These results are analysed in order to identify a possible solution according to the technical-ecological conflict of objectives.

KW - environmental impact

KW - life cycle assessment

KW - light weight design

KW - tailored forming

KW - topology optimization

UR - http://www.scopus.com/inward/record.url?scp=85143137361&partnerID=8YFLogxK

U2 - 10.35199/dfx2022.01

DO - 10.35199/dfx2022.01

M3 - Aufsatz in Konferenzband

AN - SCOPUS:85143137361

T3 - DfX

BT - DS 119: Proceedings of the 33rd Symposium Design for X (DFX2022)

A2 - Krause, Dieter

A2 - Paetzold, Kristin

A2 - Wartzack, Sandro

T2 - 33rd Symposium Design for X, DFX 2022

Y2 - 22 September 2022 through 23 September 2022

ER -