[{"_id":"30885","user_id":"83141","department":[{"_id":"9"},{"_id":"156"}],"language":[{"iso":"eng"}],"type":"journal_article","publication":"Metals","abstract":[{"lang":"eng","text":"High-speed forming processes such as electromagnetic forming (EMF) and electrohydraulic forming (EHF) have a high potential for producing lightweight components with complex geometries, but the forming zone is usually limited to a small size for equipment-related reasons. Incremental strategies overcome this limit by using a sequence of local deformations to form larger component areas gradually. Hence, the technological potential of high-speed forming can be exploited for large-area components too. The target-oriented process design of such incremental forming operations requires a deep understanding of the underlying electromagnetic and electrohydraulic forming processes. This article therefore analyzes and compares the influence of fundamental process parameters on the acting loads, the resulting course of deformation, and the forming result for both technologies via experimental and numerical investigations. Specifically, it is shown that for the EHF process considered, the electrode distance and the discharge energy have a significant influence on the resulting forming depth. In the EHF process, the largest forming depth is achieved directly below the electrodes, while the pressure distribution in the EMF depends on the fieldshaper used. The energy requirement for the EHF process is comparatively low, while significantly higher forming speeds are achieved with the EMF process."}],"status":"public","date_updated":"2023-04-27T09:39:58Z","date_created":"2022-04-13T09:06:11Z","author":[{"first_name":"Thomas","full_name":"Heggemann, Thomas","id":"9360","last_name":"Heggemann"},{"first_name":"Verena","last_name":"Psyk","full_name":"Psyk, Verena"},{"first_name":"Annika","last_name":"Oesterwinter","id":"44917","full_name":"Oesterwinter, Annika"},{"first_name":"Maik","last_name":"Linnemann","full_name":"Linnemann, Maik"},{"last_name":"Kräusel","full_name":"Kräusel, Verena","first_name":"Verena"},{"first_name":"Werner","full_name":"Homberg, Werner","last_name":"Homberg"}],"volume":12,"title":"Comparative Analysis of Electrohydraulic and Electromagnetic Sheet Metal Forming against the Background of the Application as an Incremental Processing Technology","doi":"10.3390/met12040660","publication_identifier":{"issn":["2075-4701"]},"quality_controlled":"1","issue":"4","year":"2022","citation":{"chicago":"Heggemann, Thomas, Verena Psyk, Annika Oesterwinter, Maik Linnemann, Verena Kräusel, and Werner Homberg. “Comparative Analysis of Electrohydraulic and Electromagnetic Sheet Metal Forming against the Background of the Application as an Incremental Processing Technology.” Metals 12, no. 4 (2022). https://doi.org/10.3390/met12040660.","ieee":"T. Heggemann, V. Psyk, A. Oesterwinter, M. Linnemann, V. Kräusel, and W. Homberg, “Comparative Analysis of Electrohydraulic and Electromagnetic Sheet Metal Forming against the Background of the Application as an Incremental Processing Technology,” Metals, vol. 12, no. 4, 2022, doi: 10.3390/met12040660.","ama":"Heggemann T, Psyk V, Oesterwinter A, Linnemann M, Kräusel V, Homberg W. Comparative Analysis of Electrohydraulic and Electromagnetic Sheet Metal Forming against the Background of the Application as an Incremental Processing Technology. Metals. 2022;12(4). doi:10.3390/met12040660","bibtex":"@article{Heggemann_Psyk_Oesterwinter_Linnemann_Kräusel_Homberg_2022, title={Comparative Analysis of Electrohydraulic and Electromagnetic Sheet Metal Forming against the Background of the Application as an Incremental Processing Technology}, volume={12}, DOI={10.3390/met12040660}, number={4}, journal={Metals}, author={Heggemann, Thomas and Psyk, Verena and Oesterwinter, Annika and Linnemann, Maik and Kräusel, Verena and Homberg, Werner}, year={2022} }","mla":"Heggemann, Thomas, et al. “Comparative Analysis of Electrohydraulic and Electromagnetic Sheet Metal Forming against the Background of the Application as an Incremental Processing Technology.” Metals, vol. 12, no. 4, 2022, doi:10.3390/met12040660.","short":"T. Heggemann, V. Psyk, A. Oesterwinter, M. Linnemann, V. Kräusel, W. Homberg, Metals 12 (2022).","apa":"Heggemann, T., Psyk, V., Oesterwinter, A., Linnemann, M., Kräusel, V., & Homberg, W. (2022). Comparative Analysis of Electrohydraulic and Electromagnetic Sheet Metal Forming against the Background of the Application as an Incremental Processing Technology. Metals, 12(4). https://doi.org/10.3390/met12040660"},"intvolume":" 12"},{"_id":"31791","user_id":"5905","department":[{"_id":"152"}],"article_type":"original","type":"journal_article","status":"public","date_updated":"2023-04-27T09:43:18Z","author":[{"last_name":"Gräßler","orcid":"0000-0001-5765-971X","id":"47565","full_name":"Gräßler, Iris","first_name":"Iris"},{"first_name":"Christian","orcid":"0000-0002-0983-1850","last_name":"Oleff","id":"41188","full_name":"Oleff, Christian"},{"last_name":"Hieb","id":"72252","full_name":"Hieb, Michael","first_name":"Michael"},{"full_name":"Preuß, Daniel","id":"40253","last_name":"Preuß","first_name":"Daniel"}],"volume":2,"doi":"10.1017/pds.2022.189","publication_status":"published","publication_identifier":{"issn":["2732-527X"]},"citation":{"short":"I. Gräßler, C. Oleff, M. Hieb, D. Preuß, Proceedings of the Design Society 2 (2022) 1865–1874.","mla":"Gräßler, Iris, et al. “Automated Requirement Dependency Analysis for Complex Technical Systems.” Proceedings of the Design Society, vol. 2, Cambridge University Press (CUP), 2022, pp. 1865–74, doi:10.1017/pds.2022.189.","bibtex":"@article{Gräßler_Oleff_Hieb_Preuß_2022, title={Automated Requirement Dependency Analysis for Complex Technical Systems}, volume={2}, DOI={10.1017/pds.2022.189}, journal={Proceedings of the Design Society}, publisher={Cambridge University Press (CUP)}, author={Gräßler, Iris and Oleff, Christian and Hieb, Michael and Preuß, Daniel}, year={2022}, pages={1865–1874} }","apa":"Gräßler, I., Oleff, C., Hieb, M., & Preuß, D. (2022). Automated Requirement Dependency Analysis for Complex Technical Systems. Proceedings of the Design Society, 2, 1865–1874. https://doi.org/10.1017/pds.2022.189","chicago":"Gräßler, Iris, Christian Oleff, Michael Hieb, and Daniel Preuß. “Automated Requirement Dependency Analysis for Complex Technical Systems.” Proceedings of the Design Society 2 (2022): 1865–74. https://doi.org/10.1017/pds.2022.189.","ieee":"I. Gräßler, C. Oleff, M. Hieb, and D. Preuß, “Automated Requirement Dependency Analysis for Complex Technical Systems,” Proceedings of the Design Society, vol. 2, pp. 1865–1874, 2022, doi: 10.1017/pds.2022.189.","ama":"Gräßler I, Oleff C, Hieb M, Preuß D. Automated Requirement Dependency Analysis for Complex Technical Systems. Proceedings of the Design Society. 2022;2:1865-1874. doi:10.1017/pds.2022.189"},"intvolume":" 2","page":"1865-1874","language":[{"iso":"eng"}],"publication":"Proceedings of the Design Society","abstract":[{"lang":"eng","text":"AbstractRequirements changes are a leading cause for project failures. Due to propagation effects, change management requires dependency analysis. Existing approaches have shortcomings regarding ability to process large requirement sets, availability of required data, differentiation of propagation behavior and consideration of higher order dependencies. This paper introduces a new method for advanced requirement dependency analysis based on machine learning. Evaluation proves applicability and high performance by means of a case example, 4 development projects and 3 workshops with industry experts."}],"publisher":"Cambridge University Press (CUP)","date_created":"2022-06-07T10:48:12Z","title":"Automated Requirement Dependency Analysis for Complex Technical Systems","quality_controlled":"1","year":"2022"},{"language":[{"iso":"ger"}],"department":[{"_id":"152"}],"user_id":"5905","_id":"32147","status":"public","publication":"Tagungsband der VDI Mechatronik 2022","type":"conference","conference":{"location":"Darmstadt","end_date":"20220324","start_date":"20220323","name":"Fachtagung VDI MECHATRONIK 2022"},"doi":"10.26083/tuprints-00020963","title":"Mensch-Tracking zur Identifizierung des Voranschreitens von Roboterunterstützten Rettungseinsätzen der Feuerwehr","author":[{"first_name":"I.","last_name":"Gräßler","orcid":"0000-0001-5765-971X","id":"47565","full_name":"Gräßler, I."},{"first_name":"Daniel","last_name":"Roesmann","full_name":"Roesmann, Daniel","id":"54680"},{"first_name":"Jens","id":"405","full_name":"Pottebaum, Jens","orcid":"http://orcid.org/0000-0001-8778-2989","last_name":"Pottebaum"},{"full_name":"Corves, Burkhard","last_name":"Corves","first_name":"Burkhard"},{"first_name":"Nils","full_name":"Mandischer, Nils","last_name":"Mandischer"},{"full_name":"Gürtler, Marius","last_name":"Gürtler","first_name":"Marius"}],"date_created":"2022-06-24T07:43:50Z","date_updated":"2023-04-27T09:42:09Z","page":"151-156","citation":{"ama":"Gräßler I, Roesmann D, Pottebaum J, Corves B, Mandischer N, Gürtler M. Mensch-Tracking zur Identifizierung des Voranschreitens von Roboterunterstützten Rettungseinsätzen der Feuerwehr. In: Tagungsband der VDI Mechatronik 2022. ; 2022:151-156. doi:10.26083/tuprints-00020963","chicago":"Gräßler, I., Daniel Roesmann, Jens Pottebaum, Burkhard Corves, Nils Mandischer, and Marius Gürtler. “Mensch-Tracking zur Identifizierung des Voranschreitens von Roboterunterstützten Rettungseinsätzen der Feuerwehr.” In Tagungsband der VDI Mechatronik 2022, 151–56, 2022. https://doi.org/10.26083/tuprints-00020963.","ieee":"I. Gräßler, D. Roesmann, J. Pottebaum, B. Corves, N. Mandischer, and M. Gürtler, “Mensch-Tracking zur Identifizierung des Voranschreitens von Roboterunterstützten Rettungseinsätzen der Feuerwehr,” in Tagungsband der VDI Mechatronik 2022, Darmstadt, 2022, pp. 151–156, doi: 10.26083/tuprints-00020963.","apa":"Gräßler, I., Roesmann, D., Pottebaum, J., Corves, B., Mandischer, N., & Gürtler, M. (2022). Mensch-Tracking zur Identifizierung des Voranschreitens von Roboterunterstützten Rettungseinsätzen der Feuerwehr. Tagungsband der VDI Mechatronik 2022, 151–156. https://doi.org/10.26083/tuprints-00020963","short":"I. Gräßler, D. Roesmann, J. Pottebaum, B. Corves, N. Mandischer, M. Gürtler, in: Tagungsband der VDI Mechatronik 2022, 2022, pp. 151–156.","bibtex":"@inproceedings{Gräßler_Roesmann_Pottebaum_Corves_Mandischer_Gürtler_2022, title={Mensch-Tracking zur Identifizierung des Voranschreitens von Roboterunterstützten Rettungseinsätzen der Feuerwehr}, DOI={10.26083/tuprints-00020963}, booktitle={Tagungsband der VDI Mechatronik 2022}, author={Gräßler, I. and Roesmann, Daniel and Pottebaum, Jens and Corves, Burkhard and Mandischer, Nils and Gürtler, Marius}, year={2022}, pages={151–156} }","mla":"Gräßler, I., et al. “Mensch-Tracking zur Identifizierung des Voranschreitens von Roboterunterstützten Rettungseinsätzen der Feuerwehr.” Tagungsband der VDI Mechatronik 2022, 2022, pp. 151–56, doi:10.26083/tuprints-00020963."},"year":"2022","related_material":{"link":[{"url":"https://tuprints.ulb.tu-darmstadt.de/20963/","relation":"confirmation"}]},"quality_controlled":"1","publication_status":"published"},{"title":"Extended RFLP for complex technical systems","conference":{"name":"8th IEEE International Symposium on Systems Engineering","start_date":"20221024","end_date":"20221026","location":"Wien"},"date_updated":"2023-04-27T09:40:34Z","date_created":"2022-10-26T13:25:17Z","author":[{"last_name":"Gräßler","orcid":"0000-0001-5765-971X","id":"47565","full_name":"Gräßler, Iris","first_name":"Iris"},{"first_name":"Dominik","id":"67161","full_name":"Wiechel, Dominik","last_name":"Wiechel"},{"full_name":"Oleff, Christian","id":"41188","orcid":"0000-0002-0983-1850","last_name":"Oleff","first_name":"Christian"}],"place":"Wien","year":"2022","citation":{"chicago":"Gräßler, Iris, Dominik Wiechel, and Christian Oleff. “Extended RFLP for Complex Technical Systems.” Wien, 2022.","ieee":"I. Gräßler, D. Wiechel, and C. Oleff, “Extended RFLP for complex technical systems,” presented at the 8th IEEE International Symposium on Systems Engineering, Wien, 2022.","ama":"Gräßler I, Wiechel D, Oleff C. Extended RFLP for complex technical systems. In: ; 2022.","apa":"Gräßler, I., Wiechel, D., & Oleff, C. (2022). Extended RFLP for complex technical systems. 8th IEEE International Symposium on Systems Engineering, Wien.","bibtex":"@inproceedings{Gräßler_Wiechel_Oleff_2022, place={Wien}, title={Extended RFLP for complex technical systems}, author={Gräßler, Iris and Wiechel, Dominik and Oleff, Christian}, year={2022} }","mla":"Gräßler, Iris, et al. Extended RFLP for Complex Technical Systems. 2022.","short":"I. Gräßler, D. Wiechel, C. Oleff, in: Wien, 2022."},"quality_controlled":"1","language":[{"iso":"eng"}],"_id":"33889","user_id":"5905","department":[{"_id":"152"}],"status":"public","type":"conference"},{"publication":"Applied Sciences","abstract":[{"lang":"eng","text":"Crack growth in structures depends on the cyclic loads applied on it, such as mechanical, thermal and contact, as well as residual stresses, etc. To provide an accurate simulation of crack growth in structures, it is of high importance to integrate all kinds of loading situations in the simulations. Adapcrack3D is a simulation program that can accurately predict the propagation of cracks in real structures. However, until now, this three-dimensional program has only considered mechanical loads and static thermal loads. Therefore, the features of Adapcrack3D have been extended by including contact loading in crack growth simulations. The numerical simulation of crack propagation with Adapcrack3D is generally carried out using FE models of structures provided by the user. For simulating models with contact loading situations, Adapcrack3D has been updated to work with FE models containing multiple parts and necessary features such as coupling and surface interactions. Because Adapcrack3D uses the submodel technique for fracture mechanical evaluations, the architecture of the submodel is also modified to simulate models with contact definitions between the crack surfaces. This paper discusses the newly implemented attribute of the program with the help of illustrative examples. The results confirm that the contact simulation in Adapcrack3D is a major step in improving the functionality of the program."}],"keyword":["Fluid Flow and Transfer Processes","Computer Science Applications","Process Chemistry and Technology","General Engineering","Instrumentation","General Materials Science"],"language":[{"iso":"eng"}],"quality_controlled":"1","issue":"15","year":"2022","publisher":"MDPI AG","date_created":"2022-12-05T21:49:48Z","title":"Further Development of 3D Crack Growth Simulation Program to Include Contact Loading Situations","type":"journal_article","status":"public","_id":"34224","project":[{"grant_number":"418701707","name":"TRR 285: TRR 285","_id":"130"},{"name":"TRR 285 - B: TRR 285 - Project Area B","_id":"132"},{"name":"TRR 285 – B04: TRR 285 - Subproject B04","_id":"143"}],"department":[{"_id":"143"}],"user_id":"45673","article_number":"7557","publication_identifier":{"issn":["2076-3417"]},"publication_status":"published","intvolume":" 12","citation":{"ieee":"T. D. Joy, D. Weiß, B. Schramm, and G. Kullmer, “Further Development of 3D Crack Growth Simulation Program to Include Contact Loading Situations,” Applied Sciences, vol. 12, no. 15, Art. no. 7557, 2022, doi: 10.3390/app12157557.","chicago":"Joy, Tintu David, Deborah Weiß, Britta Schramm, and Gunter Kullmer. “Further Development of 3D Crack Growth Simulation Program to Include Contact Loading Situations.” Applied Sciences 12, no. 15 (2022). https://doi.org/10.3390/app12157557.","ama":"Joy TD, Weiß D, Schramm B, Kullmer G. Further Development of 3D Crack Growth Simulation Program to Include Contact Loading Situations. Applied Sciences. 2022;12(15). doi:10.3390/app12157557","apa":"Joy, T. D., Weiß, D., Schramm, B., & Kullmer, G. (2022). Further Development of 3D Crack Growth Simulation Program to Include Contact Loading Situations. Applied Sciences, 12(15), Article 7557. https://doi.org/10.3390/app12157557","bibtex":"@article{Joy_Weiß_Schramm_Kullmer_2022, title={Further Development of 3D Crack Growth Simulation Program to Include Contact Loading Situations}, volume={12}, DOI={10.3390/app12157557}, number={157557}, journal={Applied Sciences}, publisher={MDPI AG}, author={Joy, Tintu David and Weiß, Deborah and Schramm, Britta and Kullmer, Gunter}, year={2022} }","short":"T.D. Joy, D. Weiß, B. Schramm, G. Kullmer, Applied Sciences 12 (2022).","mla":"Joy, Tintu David, et al. “Further Development of 3D Crack Growth Simulation Program to Include Contact Loading Situations.” Applied Sciences, vol. 12, no. 15, 7557, MDPI AG, 2022, doi:10.3390/app12157557."},"date_updated":"2023-04-27T10:13:44Z","volume":12,"author":[{"id":"30821","full_name":"Joy, Tintu David","last_name":"Joy","first_name":"Tintu David"},{"id":"45673","full_name":"Weiß, Deborah","last_name":"Weiß","first_name":"Deborah"},{"first_name":"Britta","full_name":"Schramm, Britta","id":"4668","last_name":"Schramm"},{"last_name":"Kullmer","id":"291","full_name":"Kullmer, Gunter","first_name":"Gunter"}],"doi":"10.3390/app12157557"},{"type":"conference","status":"public","department":[{"_id":"143"}],"user_id":"45673","_id":"30726","project":[{"name":"TRR 285: TRR 285","_id":"130","grant_number":"418701707"},{"name":"TRR 285 - B: TRR 285 - Project Area B","_id":"132"},{"_id":"143","name":"TRR 285 – B04: TRR 285 - Subproject B04"}],"publication_identifier":{"issn":["2452-3216"]},"publication_status":"published","page":"139-147","intvolume":" 39","citation":{"ama":"Weiß D, Schramm B, Kullmer G. Influence of plane mixed-mode loading on the kinking angle of clinchable metal sheets. In: Procedia Structural Integrity. Vol 39. Elsevier BV; 2022:139-147. doi:10.1016/j.prostr.2022.03.082","chicago":"Weiß, Deborah, Britta Schramm, and Gunter Kullmer. “Influence of Plane Mixed-Mode Loading on the Kinking Angle of Clinchable Metal Sheets.” In Procedia Structural Integrity, 39:139–47. Elsevier BV, 2022. https://doi.org/10.1016/j.prostr.2022.03.082.","ieee":"D. Weiß, B. Schramm, and G. Kullmer, “Influence of plane mixed-mode loading on the kinking angle of clinchable metal sheets,” in Procedia Structural Integrity, online, 2022, vol. 39, pp. 139–147, doi: 10.1016/j.prostr.2022.03.082.","bibtex":"@inproceedings{Weiß_Schramm_Kullmer_2022, title={Influence of plane mixed-mode loading on the kinking angle of clinchable metal sheets}, volume={39}, DOI={10.1016/j.prostr.2022.03.082}, booktitle={Procedia Structural Integrity}, publisher={Elsevier BV}, author={Weiß, Deborah and Schramm, Britta and Kullmer, Gunter}, year={2022}, pages={139–147} }","short":"D. Weiß, B. Schramm, G. Kullmer, in: Procedia Structural Integrity, Elsevier BV, 2022, pp. 139–147.","mla":"Weiß, Deborah, et al. “Influence of Plane Mixed-Mode Loading on the Kinking Angle of Clinchable Metal Sheets.” Procedia Structural Integrity, vol. 39, Elsevier BV, 2022, pp. 139–47, doi:10.1016/j.prostr.2022.03.082.","apa":"Weiß, D., Schramm, B., & Kullmer, G. (2022). Influence of plane mixed-mode loading on the kinking angle of clinchable metal sheets. Procedia Structural Integrity, 39, 139–147. https://doi.org/10.1016/j.prostr.2022.03.082"},"volume":39,"author":[{"first_name":"Deborah","last_name":"Weiß","full_name":"Weiß, Deborah","id":"45673"},{"first_name":"Britta","last_name":"Schramm","id":"4668","full_name":"Schramm, Britta"},{"id":"291","full_name":"Kullmer, Gunter","last_name":"Kullmer","first_name":"Gunter"}],"date_updated":"2023-04-27T10:17:21Z","doi":"10.1016/j.prostr.2022.03.082","conference":{"start_date":"2021-09-21","name":"7th International Conference on Crack Paths","location":"online","end_date":"2021-09-24"},"publication":"Procedia Structural Integrity","language":[{"iso":"eng"}],"keyword":["General Engineering","Energy Engineering and Power Technology"],"year":"2022","date_created":"2022-03-30T08:34:10Z","publisher":"Elsevier BV","title":"Influence of plane mixed-mode loading on the kinking angle of clinchable metal sheets"},{"keyword":["Mechanical Engineering","Mechanics of Materials","Engineering (miscellaneous)","Chemical Engineering (miscellaneous)"],"article_number":"100135","language":[{"iso":"eng"}],"_id":"34070","project":[{"grant_number":"418701707","_id":"130","name":"TRR 285: TRR 285"},{"_id":"143","name":"TRR 285 – B04: TRR 285 - Subproject B04"},{"_id":"142","name":"TRR 285 – B03: TRR 285 - Subproject B03"},{"name":"TRR 285 – A05: TRR 285 - Subproject A05","_id":"139"}],"department":[{"_id":"143"}],"user_id":"45673","status":"public","publication":"Journal of Advanced Joining Processes","type":"journal_article","title":"A Review on the Modeling of the Clinching Process Chain - Part III: Operational Phase","doi":"10.1016/j.jajp.2022.100135","publisher":"Elsevier BV","date_updated":"2023-04-27T10:14:11Z","author":[{"last_name":"Schramm","full_name":"Schramm, Britta","id":"4668","first_name":"Britta"},{"first_name":"Sven","last_name":"Harzheim","full_name":"Harzheim, Sven"},{"first_name":"Deborah","full_name":"Weiß, Deborah","id":"45673","last_name":"Weiß"},{"id":"30821","full_name":"Joy, Tintu David","last_name":"Joy","first_name":"Tintu David"},{"first_name":"Martin","full_name":"Hofmann, Martin","last_name":"Hofmann"},{"full_name":"Mergheim, Julia","last_name":"Mergheim","first_name":"Julia"},{"full_name":"Wallmersperger, Thomas","last_name":"Wallmersperger","first_name":"Thomas"}],"date_created":"2022-11-14T08:55:34Z","year":"2022","citation":{"apa":"Schramm, B., Harzheim, S., Weiß, D., Joy, T. D., Hofmann, M., Mergheim, J., & Wallmersperger, T. (2022). A Review on the Modeling of the Clinching Process Chain - Part III: Operational Phase. Journal of Advanced Joining Processes, Article 100135. https://doi.org/10.1016/j.jajp.2022.100135","short":"B. Schramm, S. Harzheim, D. Weiß, T.D. Joy, M. Hofmann, J. Mergheim, T. Wallmersperger, Journal of Advanced Joining Processes (2022).","bibtex":"@article{Schramm_Harzheim_Weiß_Joy_Hofmann_Mergheim_Wallmersperger_2022, title={A Review on the Modeling of the Clinching Process Chain - Part III: Operational Phase}, DOI={10.1016/j.jajp.2022.100135}, number={100135}, journal={Journal of Advanced Joining Processes}, publisher={Elsevier BV}, author={Schramm, Britta and Harzheim, Sven and Weiß, Deborah and Joy, Tintu David and Hofmann, Martin and Mergheim, Julia and Wallmersperger, Thomas}, year={2022} }","mla":"Schramm, Britta, et al. “A Review on the Modeling of the Clinching Process Chain - Part III: Operational Phase.” Journal of Advanced Joining Processes, 100135, Elsevier BV, 2022, doi:10.1016/j.jajp.2022.100135.","ama":"Schramm B, Harzheim S, Weiß D, et al. A Review on the Modeling of the Clinching Process Chain - Part III: Operational Phase. Journal of Advanced Joining Processes. Published online 2022. doi:10.1016/j.jajp.2022.100135","ieee":"B. Schramm et al., “A Review on the Modeling of the Clinching Process Chain - Part III: Operational Phase,” Journal of Advanced Joining Processes, Art. no. 100135, 2022, doi: 10.1016/j.jajp.2022.100135.","chicago":"Schramm, Britta, Sven Harzheim, Deborah Weiß, Tintu David Joy, Martin Hofmann, Julia Mergheim, and Thomas Wallmersperger. “A Review on the Modeling of the Clinching Process Chain - Part III: Operational Phase.” Journal of Advanced Joining Processes, 2022. https://doi.org/10.1016/j.jajp.2022.100135."},"publication_identifier":{"issn":["2666-3309"]},"quality_controlled":"1","publication_status":"published"},{"citation":{"ama":"Kullmer G, Weiß D, Schramm B. Development of a method for the separate measurement of the growth of internal crack tips by means of the potential drop method. Engineering Fracture Mechanics. 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