Details
| Original language | English |
|---|---|
| Title of host publication | Lecture Notes in Production Engineering |
| Publisher | Springer Nature |
| Pages | 568-585 |
| Number of pages | 18 |
| Publication status | Published - 2021 |
Publication series
| Name | Lecture Notes in Production Engineering |
|---|---|
| Volume | Part F1168 |
| ISSN (Print) | 2194-0525 |
| ISSN (electronic) | 2194-0533 |
Abstract
In this study, methods for the analysis of ductile damage and a fatigue model based on the Z-integral approach are combined for the characterization of cold die rolled components. The cold die rolling is a new process that features characteristics of sheet-bulk metal forming, due to the three dimensional stress and strain states during the forming processes. Based on this process a demonstrator component was manufactured and an additional subsequent heat treatment was employed to counterbalance the processing-induced ductile damage. Microstructural analysis was carried out using scanning electron microscopy to characterize the ductile damage induced by cold die rolling. The fatigue behaviour of the samples was studied and a fatigue model was developed based on shortened test procedures like the incremental step test.
ASJC Scopus subject areas
- Engineering(all)
- Industrial and Manufacturing Engineering
- Economics, Econometrics and Finance(all)
- Economics, Econometrics and Finance (miscellaneous)
- Engineering(all)
- Safety, Risk, Reliability and Quality
Cite this
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Lecture Notes in Production Engineering. Springer Nature, 2021. p. 568-585 (Lecture Notes in Production Engineering; Vol. Part F1168).
Research output: Chapter in book/report/conference proceeding › Contribution to book/anthology › Research › peer review
}
TY - CHAP
T1 - Fatigue Life Compliant Process Design for the Manufacturing of Cold Die Rolled Components
AU - Wackenrohr, Steffen
AU - Nürnberger, Florian
AU - Maier, Hans Jürgen
N1 - Funding Information: Acknowledgment. This study was supported by the German Research Foundation (DFG) within the scope of the Transregional Collaborative Research Centre for sheet-bulk metal forming (TCRC 73, Transferproject T08) under grant number 68237143. In addition, the authors would like to thank Mrs. Ute Teuber and Mrs. Anja Krabbenhöft for the sample preparation and the recording of the SEM images for the investigation of the ductile damage in this study.
PY - 2021
Y1 - 2021
N2 - In this study, methods for the analysis of ductile damage and a fatigue model based on the Z-integral approach are combined for the characterization of cold die rolled components. The cold die rolling is a new process that features characteristics of sheet-bulk metal forming, due to the three dimensional stress and strain states during the forming processes. Based on this process a demonstrator component was manufactured and an additional subsequent heat treatment was employed to counterbalance the processing-induced ductile damage. Microstructural analysis was carried out using scanning electron microscopy to characterize the ductile damage induced by cold die rolling. The fatigue behaviour of the samples was studied and a fatigue model was developed based on shortened test procedures like the incremental step test.
AB - In this study, methods for the analysis of ductile damage and a fatigue model based on the Z-integral approach are combined for the characterization of cold die rolled components. The cold die rolling is a new process that features characteristics of sheet-bulk metal forming, due to the three dimensional stress and strain states during the forming processes. Based on this process a demonstrator component was manufactured and an additional subsequent heat treatment was employed to counterbalance the processing-induced ductile damage. Microstructural analysis was carried out using scanning electron microscopy to characterize the ductile damage induced by cold die rolling. The fatigue behaviour of the samples was studied and a fatigue model was developed based on shortened test procedures like the incremental step test.
UR - http://www.scopus.com/inward/record.url?scp=85103251083&partnerID=8YFLogxK
U2 - 10.1007/978-3-030-61902-2_26
DO - 10.1007/978-3-030-61902-2_26
M3 - Contribution to book/anthology
AN - SCOPUS:85103251083
T3 - Lecture Notes in Production Engineering
SP - 568
EP - 585
BT - Lecture Notes in Production Engineering
PB - Springer Nature
ER -