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Lebensdauerprognose für additiv gefertigte Kunststoffbauteile mittels bruchmechanischer Konzepte. Shaker Verlag, 2020.","short":"B. Bauer, Lebensdauerprognose für additiv gefertigte Kunststoffbauteile mittels bruchmechanischer Konzepte, Shaker Verlag, Aachen, 2020.","apa":"Bauer, B. (2020). Lebensdauerprognose für additiv gefertigte Kunststoffbauteile mittels bruchmechanischer Konzepte (Vol. 20). Shaker Verlag.","ama":"Bauer B. Lebensdauerprognose für additiv gefertigte Kunststoffbauteile mittels bruchmechanischer Konzepte. Vol 20. Shaker Verlag; 2020.","ieee":"B. Bauer, Lebensdauerprognose für additiv gefertigte Kunststoffbauteile mittels bruchmechanischer Konzepte, vol. 20. Aachen: Shaker Verlag, 2020.","chicago":"Bauer, Benjamin. Lebensdauerprognose für additiv gefertigte Kunststoffbauteile mittels bruchmechanischer Konzepte. Vol. 20. Forschungsberichte des Direct Manufacturing Research Centers. 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Qualifizierung intelligenter Datenanalysemethoden bei vollautomatisierten Klebtechnikanwendungen."},"user_id":"15324"},{"date_created":"2023-03-06T09:40:07Z","type":"dissertation","publication_identifier":{"isbn":["978-3-8440-7583-0"]},"year":"2020","language":[{"iso":"ger"}],"status":"public","_id":"42758","date_updated":"2023-03-06T09:40:21Z","title":"Entwicklung einer Methodik zur numerischen Simulation des Hochgeschwindigkeits-Bolzensetzens","author":[{"first_name":"Michael","full_name":"Gerkens, Michael","last_name":"Gerkens"}],"citation":{"ama":"Gerkens M. Entwicklung einer Methodik zur numerischen Simulation des Hochgeschwindigkeits-Bolzensetzens.; 2020.","apa":"Gerkens, M. (2020). Entwicklung einer Methodik zur numerischen Simulation des Hochgeschwindigkeits-Bolzensetzens.","chicago":"Gerkens, Michael. Entwicklung einer Methodik zur numerischen Simulation des Hochgeschwindigkeits-Bolzensetzens, 2020.","ieee":"M. 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Große Daldrup, Modellierung des Strömungs- und Trennverhaltens viskoser Gemische in Packungskolonnen basierend auf tomographischen Untersuchungen. 2020.","mla":"Große Daldrup, Anna. Modellierung des Strömungs- und Trennverhaltens viskoser Gemische in Packungskolonnen basierend auf tomographischen Untersuchungen. 2020.","bibtex":"@book{Große Daldrup_2020, title={Modellierung des Strömungs- und Trennverhaltens viskoser Gemische in Packungskolonnen basierend auf tomographischen Untersuchungen}, author={Große Daldrup, Anna }, year={2020} }","ama":"Große Daldrup A. Modellierung des Strömungs- und Trennverhaltens viskoser Gemische in Packungskolonnen basierend auf tomographischen Untersuchungen.; 2020.","apa":"Große Daldrup, A. (2020). Modellierung des Strömungs- und Trennverhaltens viskoser Gemische in Packungskolonnen basierend auf tomographischen Untersuchungen."},"department":[{"_id":"145"}],"author":[{"last_name":"Große Daldrup","full_name":"Große Daldrup, Anna ","first_name":"Anna "}],"title":"Modellierung des Strömungs- und Trennverhaltens viskoser Gemische in Packungskolonnen basierend auf tomographischen Untersuchungen","_id":"42795","date_updated":"2023-03-07T08:35:50Z","date_created":"2023-03-07T08:35:43Z","status":"public","language":[{"iso":"ger"}],"year":"2020","type":"dissertation"},{"intvolume":" 64","author":[{"last_name":"Schmal","full_name":"Schmal, Christopher","first_name":"Christopher"},{"last_name":"Meschut","full_name":"Meschut, Gerson","first_name":"Gerson"}],"department":[{"_id":"157"}],"publication_status":"published","citation":{"mla":"Schmal, Christopher, and Gerson Meschut. “Refill Friction Stir Spot and Resistance Spot Welding of Aluminium Joints with Large Total Sheet Thicknesses (III-1965-19).” Welding in the World, vol. 64, no. 9, Springer Science and Business Media LLC, 2020, pp. 1471–80, doi:10.1007/s40194-020-00922-2.","apa":"Schmal, C., & Meschut, G. (2020). Refill friction stir spot and resistance spot welding of aluminium joints with large total sheet thicknesses (III-1965-19). Welding in the World, 64(9), 1471–1480. https://doi.org/10.1007/s40194-020-00922-2","bibtex":"@article{Schmal_Meschut_2020, title={Refill friction stir spot and resistance spot welding of aluminium joints with large total sheet thicknesses (III-1965-19)}, volume={64}, DOI={10.1007/s40194-020-00922-2}, number={9}, journal={Welding in the World}, publisher={Springer Science and Business Media LLC}, author={Schmal, Christopher and Meschut, Gerson}, year={2020}, pages={1471–1480} }","ama":"Schmal C, Meschut G. Refill friction stir spot and resistance spot welding of aluminium joints with large total sheet thicknesses (III-1965-19). Welding in the World. 2020;64(9):1471-1480. doi:10.1007/s40194-020-00922-2","chicago":"Schmal, Christopher, and Gerson Meschut. “Refill Friction Stir Spot and Resistance Spot Welding of Aluminium Joints with Large Total Sheet Thicknesses (III-1965-19).” Welding in the World 64, no. 9 (2020): 1471–80. https://doi.org/10.1007/s40194-020-00922-2.","short":"C. Schmal, G. Meschut, Welding in the World 64 (2020) 1471–1480.","ieee":"C. Schmal and G. Meschut, “Refill friction stir spot and resistance spot welding of aluminium joints with large total sheet thicknesses (III-1965-19),” Welding in the World, vol. 64, no. 9, pp. 1471–1480, 2020, doi: 10.1007/s40194-020-00922-2."},"status":"public","language":[{"iso":"eng"}],"year":"2020","publication_identifier":{"issn":["0043-2288","1878-6669"]},"publisher":"Springer Science and Business Media LLC","date_created":"2023-03-29T08:44:57Z","date_updated":"2023-03-29T08:45:28Z","_id":"43160","doi":"10.1007/s40194-020-00922-2","abstract":[{"lang":"eng","text":"Refill friction stir spot welding (RFSSW) is a highly flexible and promising solid-state joining method for aluminium alloys. Alternatively, resistance spot welding (RSW) can be stated as an appropriate joining method which can be automated and used within a high-volume production due to short process times. Both processes do not need any additional elements and a flat surface on both sides of the joints can be realised. In order to meet the modern requirements for crash safety and structural stiffness, thermal and mechanical joining methods are mainly combined by using single-component epoxy resin adhesives. Due to an insufficient knowledge about the application of both thermal joining methods for the abovementioned material combinations combined with additional adhesives, deeper investigations were done regarding the interactions of the polymers and the joining processes. Starting with a brief presentation of the boundary conditions of the investigations and the refill friction stir spot welding and resistance spot welding of high-strength aluminium alloys with sheet thicknesses bigger than 5.8 mm, the paper introduces the process-related joint properties of friction-based and resistance-based welded joints. Afterwards, the paper discusses the influences of the process parameter on the metallographic joint formation and load-bearing capacities for a selected two-sheet and four-sheet material combination. When combining the spot welding technologies with adhesives, the process parameters of the RFSSW process have to be adapted for the two-sheet combination by adding a squeeze-out step, while for RSW, just the preholding time has to be increased. Different challenges for both joining methods are shown. For RFSSW, the gap formation has to be considered when welding big total sheet thicknesses, while for RSW, the shape of the weld nugget is more important for an appropriate joint performance. Additionally, process optimisations for less adhesive incineration will be discussed for both joining processes, and the influences of the adhesive on the joint formation will be addressed with the help of load-bearing capacity evaluations. The paper closes with specific recommendations for the realisation of refill friction stir and resistance spot-welded joints with and without adhesive in the field of Al joints with big total sheet thicknesses which meet the quality demands and an outlook for further research steps will be given."}],"title":"Refill friction stir spot and resistance spot welding of aluminium joints with large total sheet thicknesses (III-1965-19)","keyword":["Metals and Alloys","Mechanical Engineering","Mechanics of Materials"],"user_id":"53912","type":"journal_article","publication":"Welding in the World","issue":"9","volume":64,"page":"1471-1480"},{"date_updated":"2023-03-29T08:49:23Z","_id":"43162","status":"public","publication_identifier":{"issn":["2195-8572","0025-5300"]},"year":"2020","language":[{"iso":"eng"}],"publisher":"Walter de Gruyter GmbH","date_created":"2023-03-29T08:48:19Z","department":[{"_id":"157"}],"publication_status":"published","citation":{"short":"M. Gollnick, P. Giese, D. Hein, G. Meschut, D. Herfert, Materials Testing 62 (2020) 877–882.","bibtex":"@article{Gollnick_Giese_Hein_Meschut_Herfert_2020, title={Early stage crack detection in mechanically joined steel/aluminum joints by condition monitoring}, volume={62}, DOI={10.3139/120.111558}, number={9}, journal={Materials Testing}, publisher={Walter de Gruyter GmbH}, author={Gollnick, Maik and Giese, Patrick and Hein, David and Meschut, Gerson and Herfert, Daniel}, year={2020}, pages={877–882} }","mla":"Gollnick, Maik, et al. “Early Stage Crack Detection in Mechanically Joined Steel/Aluminum Joints by Condition Monitoring.” Materials Testing, vol. 62, no. 9, Walter de Gruyter GmbH, 2020, pp. 877–82, doi:10.3139/120.111558.","ieee":"M. Gollnick, P. Giese, D. Hein, G. Meschut, and D. Herfert, “Early stage crack detection in mechanically joined steel/aluminum joints by condition monitoring,” Materials Testing, vol. 62, no. 9, pp. 877–882, 2020, doi: 10.3139/120.111558.","chicago":"Gollnick, Maik, Patrick Giese, David Hein, Gerson Meschut, and Daniel Herfert. “Early Stage Crack Detection in Mechanically Joined Steel/Aluminum Joints by Condition Monitoring.” Materials Testing 62, no. 9 (2020): 877–82. https://doi.org/10.3139/120.111558.","ama":"Gollnick M, Giese P, Hein D, Meschut G, Herfert D. Early stage crack detection in mechanically joined steel/aluminum joints by condition monitoring. Materials Testing. 2020;62(9):877-882. doi:10.3139/120.111558","apa":"Gollnick, M., Giese, P., Hein, D., Meschut, G., & Herfert, D. (2020). Early stage crack detection in mechanically joined steel/aluminum joints by condition monitoring. Materials Testing, 62(9), 877–882. https://doi.org/10.3139/120.111558"},"intvolume":" 62","author":[{"last_name":"Gollnick","full_name":"Gollnick, Maik","first_name":"Maik"},{"last_name":"Giese","first_name":"Patrick","full_name":"Giese, Patrick"},{"last_name":"Hein","full_name":"Hein, David","first_name":"David"},{"last_name":"Meschut","full_name":"Meschut, Gerson","first_name":"Gerson"},{"full_name":"Herfert, Daniel","first_name":"Daniel","last_name":"Herfert"}],"issue":"9","volume":62,"page":"877-882","type":"journal_article","publication":"Materials Testing","user_id":"53912","keyword":["Mechanical Engineering","Mechanics of Materials","General Materials Science"],"abstract":[{"text":"Monitoring systems for machines, plants, materials and equipment are increasingly used in production processes. These online condition monitoring systems can detect damage or excessive loads at an early stage and can drastically reduce or prevent long downtimes of plants and machines as well as high repair and maintenance costs. This paper depicts a method for online crack detection with pattern recognition methods for specimens joined by self-pierce riveting under cyclic load in fatigue tests (laboratory application). A software specially conceived for this application was developed. This software, AnrissMF, uses active acoustic testing with a structure-borne sensor to detect cracks in the joints at a very early stage. It is shown in this paper that this software can detect cracks much earlier than classical failure criteria for joints (i. e. before any drop in stiffness or frequency is observed). Furthermore, the successful application of software AnrissMF for online crack detection during the fatigue strength test is presented.","lang":"eng"}],"doi":"10.3139/120.111558","title":"Early stage crack detection in mechanically joined steel/aluminum joints by condition monitoring"},{"citation":{"chicago":"Schmal, Christopher, and Gerson Meschut. “Process Characteristics and Influences of Production-Related Disturbances in Resistance Element Welding of Hybrid Materials with Steel Cover Sheets and Polymer Core.” Welding in the World 64, no. 3 (2020): 437–48. https://doi.org/10.1007/s40194-019-00842-w.","ieee":"C. Schmal and G. Meschut, “Process characteristics and influences of production-related disturbances in resistance element welding of hybrid materials with steel cover sheets and polymer core,” Welding in the World, vol. 64, no. 3, pp. 437–448, 2020, doi: 10.1007/s40194-019-00842-w.","apa":"Schmal, C., & Meschut, G. (2020). Process characteristics and influences of production-related disturbances in resistance element welding of hybrid materials with steel cover sheets and polymer core. Welding in the World, 64(3), 437–448. https://doi.org/10.1007/s40194-019-00842-w","ama":"Schmal C, Meschut G. Process characteristics and influences of production-related disturbances in resistance element welding of hybrid materials with steel cover sheets and polymer core. Welding in the World. 2020;64(3):437-448. doi:10.1007/s40194-019-00842-w","short":"C. Schmal, G. Meschut, Welding in the World 64 (2020) 437–448.","mla":"Schmal, Christopher, and Gerson Meschut. “Process Characteristics and Influences of Production-Related Disturbances in Resistance Element Welding of Hybrid Materials with Steel Cover Sheets and Polymer Core.” Welding in the World, vol. 64, no. 3, Springer Science and Business Media LLC, 2020, pp. 437–48, doi:10.1007/s40194-019-00842-w.","bibtex":"@article{Schmal_Meschut_2020, title={Process characteristics and influences of production-related disturbances in resistance element welding of hybrid materials with steel cover sheets and polymer core}, volume={64}, DOI={10.1007/s40194-019-00842-w}, number={3}, journal={Welding in the World}, publisher={Springer Science and Business Media LLC}, author={Schmal, Christopher and Meschut, Gerson}, year={2020}, pages={437–448} }"},"publication_status":"published","department":[{"_id":"157"}],"author":[{"full_name":"Schmal, Christopher","first_name":"Christopher","last_name":"Schmal"},{"first_name":"Gerson","full_name":"Meschut, Gerson","last_name":"Meschut"}],"intvolume":" 64","_id":"43161","date_updated":"2023-03-29T08:47:19Z","date_created":"2023-03-29T08:46:44Z","publisher":"Springer Science and Business Media LLC","language":[{"iso":"eng"}],"publication_identifier":{"issn":["0043-2288","1878-6669"]},"year":"2020","status":"public","keyword":["Metals and Alloys","Mechanical Engineering","Mechanics of Materials"],"user_id":"53912","title":"Process characteristics and influences of production-related disturbances in resistance element welding of hybrid materials with steel cover sheets and polymer core","doi":"10.1007/s40194-019-00842-w","page":"437-448","volume":64,"issue":"3","publication":"Welding in the World","type":"journal_article"},{"project":[{"name":"TRR 285: TRR 285","_id":"130","grant_number":"418701707"},{"name":"TRR 285 - C: TRR 285 - Project Area C","_id":"133"},{"_id":"146","name":"TRR 285 – C02: TRR 285 - Subproject C02"}],"author":[{"first_name":"Fabian","full_name":"Kappe, Fabian","id":"66459","last_name":"Kappe"},{"last_name":"Wituschek","full_name":"Wituschek, Simon","first_name":"Simon"},{"last_name":"Lechner","first_name":"Michael","full_name":"Lechner, Michael"},{"last_name":"Bobbert","id":"7850","first_name":"Mathias","full_name":"Bobbert, Mathias"},{"first_name":"Gerson","full_name":"Meschut, Gerson","last_name":"Meschut","id":"32056","orcid":"0000-0002-2763-1246"},{"full_name":"Merklein, Marion","first_name":"Marion","last_name":"Merklein"}],"conference":{"name":"Material Science and Engineering Congress - MSE 2020","start_date":"2020-09-22","location":"Darmstadt ","end_date":"2020-09-25"},"title":"Investigation of influencing parameters on the joint formation of the self-piercing riveting process","department":[{"_id":"157"}],"user_id":"66459","citation":{"ieee":"F. Kappe, S. Wituschek, M. Lechner, M. Bobbert, G. Meschut, and M. Merklein, “Investigation of influencing parameters on the joint formation of the self-piercing riveting process,” presented at the Material Science and Engineering Congress - MSE 2020, Darmstadt , 2020.","chicago":"Kappe, Fabian, Simon Wituschek, Michael Lechner, Mathias Bobbert, Gerson Meschut, and Marion Merklein. “Investigation of Influencing Parameters on the Joint Formation of the Self-Piercing Riveting Process,” 2020.","apa":"Kappe, F., Wituschek, S., Lechner, M., Bobbert, M., Meschut, G., & Merklein, M. (2020). Investigation of influencing parameters on the joint formation of the self-piercing riveting process. Material Science and Engineering Congress - MSE 2020, Darmstadt .","ama":"Kappe F, Wituschek S, Lechner M, Bobbert M, Meschut G, Merklein M. Investigation of influencing parameters on the joint formation of the self-piercing riveting process. In: ; 2020.","short":"F. Kappe, S. Wituschek, M. Lechner, M. Bobbert, G. Meschut, M. Merklein, in: 2020.","bibtex":"@inproceedings{Kappe_Wituschek_Lechner_Bobbert_Meschut_Merklein_2020, title={Investigation of influencing parameters on the joint formation of the self-piercing riveting process}, author={Kappe, Fabian and Wituschek, Simon and Lechner, Michael and Bobbert, Mathias and Meschut, Gerson and Merklein, Marion}, year={2020} }","mla":"Kappe, Fabian, et al. Investigation of Influencing Parameters on the Joint Formation of the Self-Piercing Riveting Process. 2020."},"status":"public","type":"conference","year":"2020","language":[{"iso":"eng"}],"date_created":"2020-12-07T08:11:08Z","date_updated":"2023-04-27T08:56:25Z","_id":"20680"},{"author":[{"id":"20531","last_name":"Moritzer","full_name":"Moritzer, Elmar","first_name":"Elmar"},{"first_name":"M.","full_name":"Hüttner, M.","last_name":"Hüttner"},{"last_name":"Henning","id":"213","first_name":"Bernd","full_name":"Henning, Bernd"},{"orcid":"0000-0001-6411-4232","first_name":"Manuel","full_name":"Webersen, Manuel","last_name":"Webersen","id":"11289"}],"title":"The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization","doi":"10.1007/978-3-662-60809-8_16","place":"Berlin, Heidelberg","user_id":"38212","publication_status":"published","citation":{"apa":"Moritzer, E., Hüttner, M., Henning, B., & Webersen, M. (2020). The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization. In Advances in Polymer Processing 2020. https://doi.org/10.1007/978-3-662-60809-8_16","ama":"Moritzer E, Hüttner M, Henning B, Webersen M. The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization. In: Advances in Polymer Processing 2020. ; 2020. doi:10.1007/978-3-662-60809-8_16","ieee":"E. Moritzer, M. Hüttner, B. Henning, and M. Webersen, “The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization,” in Advances in Polymer Processing 2020, Berlin, Heidelberg, 2020.","chicago":"Moritzer, Elmar, M. Hüttner, Bernd Henning, and Manuel Webersen. “The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and Its Non-Destructive Characterization.” In Advances in Polymer Processing 2020. Berlin, Heidelberg, 2020. https://doi.org/10.1007/978-3-662-60809-8_16.","bibtex":"@inbook{Moritzer_Hüttner_Henning_Webersen_2020, place={Berlin, Heidelberg}, title={The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and its Non-Destructive Characterization}, DOI={10.1007/978-3-662-60809-8_16}, booktitle={Advances in Polymer Processing 2020}, author={Moritzer, Elmar and Hüttner, M. and Henning, Bernd and Webersen, Manuel}, year={2020} }","mla":"Moritzer, Elmar, et al. “The Influence of Hydrothermal Aging on the Material Properties of Continuous Fiber-Reinforced Thermoplastics and Its Non-Destructive Characterization.” Advances in Polymer Processing 2020, 2020, doi:10.1007/978-3-662-60809-8_16.","short":"E. Moritzer, M. Hüttner, B. Henning, M. Webersen, in: Advances in Polymer Processing 2020, Berlin, Heidelberg, 2020."},"department":[{"_id":"321"},{"_id":"9"},{"_id":"367"},{"_id":"147"}],"publication":"Advances in Polymer Processing 2020","quality_controlled":"1","date_created":"2021-09-15T07:31:08Z","status":"public","year":"2020","type":"book_chapter","language":[{"iso":"eng"}],"_id":"24479","date_updated":"2023-04-26T13:39:29Z"},{"date_created":"2021-05-28T10:44:36Z","publication":"Frontiers in Energy Research","quality_controlled":"1","language":[{"iso":"eng"}],"type":"journal_article","publication_identifier":{"issn":["2296-598X"]},"year":"2020","status":"public","_id":"22266","volume":8,"article_number":"571787","date_updated":"2023-04-27T08:00:27Z","title":"Modeling and Optimization of Rectangular Latent Heat Storage Elements in an Air-Guided Heat Storage System","author":[{"full_name":"Grabo, Matti","first_name":"Matti","id":"66520","last_name":"Grabo"},{"last_name":"Staggenborg","first_name":"Christoph","full_name":"Staggenborg, Christoph"},{"full_name":"Philippi, Kai Alexander","first_name":"Kai Alexander","last_name":"Philippi"},{"full_name":"Kenig, Eugeny","first_name":"Eugeny","id":"665","last_name":"Kenig"}],"project":[{"_id":"52","name":"Computing Resources Provided by the Paderborn Center for Parallel Computing"}],"doi":"10.3389/fenrg.2020.571787","intvolume":" 8","citation":{"chicago":"Grabo, Matti, Christoph Staggenborg, Kai Alexander Philippi, and Eugeny Kenig. “Modeling and Optimization of Rectangular Latent Heat Storage Elements in an Air-Guided Heat Storage System.” Frontiers in Energy Research 8 (2020). https://doi.org/10.3389/fenrg.2020.571787.","ieee":"M. Grabo, C. Staggenborg, K. A. Philippi, and E. Kenig, “Modeling and Optimization of Rectangular Latent Heat Storage Elements in an Air-Guided Heat Storage System,” Frontiers in Energy Research, vol. 8, Art. no. 571787, 2020, doi: 10.3389/fenrg.2020.571787.","apa":"Grabo, M., Staggenborg, C., Philippi, K. A., & Kenig, E. (2020). Modeling and Optimization of Rectangular Latent Heat Storage Elements in an Air-Guided Heat Storage System. Frontiers in Energy Research, 8, Article 571787. https://doi.org/10.3389/fenrg.2020.571787","ama":"Grabo M, Staggenborg C, Philippi KA, Kenig E. Modeling and Optimization of Rectangular Latent Heat Storage Elements in an Air-Guided Heat Storage System. Frontiers in Energy Research. 2020;8. doi:10.3389/fenrg.2020.571787","short":"M. Grabo, C. Staggenborg, K.A. Philippi, E. Kenig, Frontiers in Energy Research 8 (2020).","mla":"Grabo, Matti, et al. “Modeling and Optimization of Rectangular Latent Heat Storage Elements in an Air-Guided Heat Storage System.” Frontiers in Energy Research, vol. 8, 571787, 2020, doi:10.3389/fenrg.2020.571787.","bibtex":"@article{Grabo_Staggenborg_Philippi_Kenig_2020, title={Modeling and Optimization of Rectangular Latent Heat Storage Elements in an Air-Guided Heat Storage System}, volume={8}, DOI={10.3389/fenrg.2020.571787}, number={571787}, journal={Frontiers in Energy Research}, author={Grabo, Matti and Staggenborg, Christoph and Philippi, Kai Alexander and Kenig, Eugeny}, year={2020} }"},"publication_status":"published","user_id":"66520","department":[{"_id":"9"},{"_id":"145"}]},{"status":"public","year":"2020","publication_identifier":{"issn":["0140-7007"]},"language":[{"iso":"eng"}],"publisher":"Elsevier","date_created":"2021-03-16T11:52:39Z","date_updated":"2023-04-27T11:10:20Z","_id":"21514","intvolume":" 119","author":[{"last_name":"Sonnenrein","first_name":"Gerrit","full_name":"Sonnenrein, Gerrit"},{"first_name":"Elmar","full_name":"Baumhögger, Elmar","last_name":"Baumhögger","id":"15164"},{"last_name":"Elsner","id":"16124","full_name":"Elsner, Andreas","first_name":"Andreas"},{"first_name":"A.","full_name":"Morbach, A.","last_name":"Morbach"},{"orcid":"0000-0001-9101-8828","id":"45530","last_name":"Neukötter","full_name":"Neukötter, Moritz","first_name":"Moritz"},{"full_name":"Paul, Andreas","first_name":"Andreas","id":"7828","last_name":"Paul"},{"last_name":"Vrabec","first_name":"J.","full_name":"Vrabec, J."}],"department":[{"_id":"728"},{"_id":"155"},{"_id":"393"},{"_id":"150"},{"_id":"9"}],"publication_status":"published","citation":{"short":"G. Sonnenrein, E. Baumhögger, A. Elsner, A. Morbach, M. Neukötter, A. Paul, J. Vrabec, International Journal of Refrigeration 119 (2020) 448–456.","bibtex":"@article{Sonnenrein_Baumhögger_Elsner_Morbach_Neukötter_Paul_Vrabec_2020, title={Improving the performance of household refrigerating appliances through the integration of phase change materials in the context of the new global refrigerator standard IEC 62552:2015}, volume={119}, DOI={10.1016/j.ijrefrig.2020.07.025}, journal={International Journal of Refrigeration}, publisher={Elsevier}, author={Sonnenrein, Gerrit and Baumhögger, Elmar and Elsner, Andreas and Morbach, A. and Neukötter, Moritz and Paul, Andreas and Vrabec, J.}, year={2020}, pages={448–456} }","mla":"Sonnenrein, Gerrit, et al. “Improving the Performance of Household Refrigerating Appliances through the Integration of Phase Change Materials in the Context of the New Global Refrigerator Standard IEC 62552:2015.” International Journal of Refrigeration, vol. 119, Elsevier, 2020, pp. 448–56, doi:10.1016/j.ijrefrig.2020.07.025.","ieee":"G. Sonnenrein et al., “Improving the performance of household refrigerating appliances through the integration of phase change materials in the context of the new global refrigerator standard IEC 62552:2015,” International Journal of Refrigeration, vol. 119, pp. 448–456, 2020, doi: 10.1016/j.ijrefrig.2020.07.025.","chicago":"Sonnenrein, Gerrit, Elmar Baumhögger, Andreas Elsner, A. Morbach, Moritz Neukötter, Andreas Paul, and J. Vrabec. “Improving the Performance of Household Refrigerating Appliances through the Integration of Phase Change Materials in the Context of the New Global Refrigerator Standard IEC 62552:2015.” International Journal of Refrigeration 119 (2020): 448–56. https://doi.org/10.1016/j.ijrefrig.2020.07.025.","ama":"Sonnenrein G, Baumhögger E, Elsner A, et al. Improving the performance of household refrigerating appliances through the integration of phase change materials in the context of the new global refrigerator standard IEC 62552:2015. International Journal of Refrigeration. 2020;119:448-456. doi:10.1016/j.ijrefrig.2020.07.025","apa":"Sonnenrein, G., Baumhögger, E., Elsner, A., Morbach, A., Neukötter, M., Paul, A., & Vrabec, J. (2020). Improving the performance of household refrigerating appliances through the integration of phase change materials in the context of the new global refrigerator standard IEC 62552:2015. International Journal of Refrigeration, 119, 448–456. https://doi.org/10.1016/j.ijrefrig.2020.07.025"},"type":"journal_article","quality_controlled":"1","publication":"International Journal of Refrigeration","volume":119,"page":"448-456","abstract":[{"lang":"eng","text":"The influence of latent heat storage elements on the cooling performance and the temperature rise time of household refrigerating appliances is studied experimentally in the context of the “new global refriger- ator standard”IEC 62552:2015. In addition to the daily energy consumption, this international standard- ization introduced performance tests for cooling capacity and temperature rise time. While the cooling capacity has long been anchored in various test procedures of consumer organizations, the temperature rise time, which has only been tested on freezers so far, will be a decisive factor in the future. Moreover, the need for so-called \"smart appliances\" that may balance power consumption is increasing since such devices may compensate the volatility of renewable energies and thus stabilize the power grid. Against this background, eight commercial household refrigerators and refrigerator-freezers are equipped with polymer-bound phase change materials (PCM) and their performance is determined under the new stan- dard test conditions. The results show that the introduction of PCM increases the cooling capacity by up to 33 % and also increases the temperature rise time by up to 145 %, without affecting power consump- tion, as compared to the unmodified refrigeration appliances."}],"doi":"10.1016/j.ijrefrig.2020.07.025","title":"Improving the performance of household refrigerating appliances through the integration of phase change materials in the context of the new global refrigerator standard IEC 62552:2015","user_id":"7828"},{"article_number":"115113","volume":173,"type":"journal_article","publication":"Applied Thermal Engineering","quality_controlled":"1","user_id":"7828","doi":"10.1016/j.applthermaleng.2020.115113","abstract":[{"text":"Despite the omnipresence of household refrigeration appliances, there is still a lack of knowledge about their agerelated efficiency loss over time. Past studies provide basic evidence for increasing electricity consumption of cooling appliances with ageing but fail to investigate the associated technical wear. Concentrating on the degradation of the thermal insulation, we first determined the ageing process of sealed samples of polyurethane rigid foam by investigating changes in cell gas composition and thermal conductivity over time. Simultaneously, the main challenge was to develop an approach that investigates the age-related efficiency loss of the insulation without its destruction. This testing procedure is referred to as the Bonn method. The non-destructive Bonn method was applied to varying refrigerator models in a series of successive experiments to evaluate the insulation degradation over time. Subsequently, the physical relationship between the test value of the Bonn method and the heat transfer through the multi-layered compartment walls of domestic refrigeration appliances was established, ultimately characterising the degrading insulation in terms of increasing heat transfer. Our results give substantiated evidence that the efficiency loss of cooling appliances is greatly influenced by insulation degradation over time. The ageing of sealed samples of polyurethane rigid foam indicates a large initial increase of thermal conductivity by 15% within the first year, corresponding to a change in cell gas composition. These results are in line with those of the Bonn method, emphasising an increasing heat flow through the multi-layered compartment walls of domestic refrigerators with ageing. Therewith, the present study is of significance to a wide range of stakeholders and forms the basis for future research.","lang":"eng"}],"title":"Age-related efficiency loss of household refrigeration appliances: Development of an approach to measure the degradation of insulation properties","date_updated":"2023-04-27T11:11:07Z","_id":"21512","language":[{"iso":"eng"}],"year":"2020","publication_identifier":{"issn":["1359-4311"]},"status":"public","date_created":"2021-03-16T10:12:12Z","publisher":"Elsevier","department":[{"_id":"728"},{"_id":"155"},{"_id":"9"}],"citation":{"ieee":"C. Hueppe et al., “Age-related efficiency loss of household refrigeration appliances: Development of an approach to measure the degradation of insulation properties,” Applied Thermal Engineering, vol. 173, Art. no. 115113, 2020, doi: 10.1016/j.applthermaleng.2020.115113.","chicago":"Hueppe, Christian, Jasmin Geppert, Rainer Stamminger, Hendrik Wagner, Heike Hoelscher, Jadran Vrabec, Andreas Paul, et al. “Age-Related Efficiency Loss of Household Refrigeration Appliances: Development of an Approach to Measure the Degradation of Insulation Properties.” Applied Thermal Engineering 173 (2020). https://doi.org/10.1016/j.applthermaleng.2020.115113.","ama":"Hueppe C, Geppert J, Stamminger R, et al. Age-related efficiency loss of household refrigeration appliances: Development of an approach to measure the degradation of insulation properties. Applied Thermal Engineering. 2020;173. doi:10.1016/j.applthermaleng.2020.115113","apa":"Hueppe, C., Geppert, J., Stamminger, R., Wagner, H., Hoelscher, H., Vrabec, J., Paul, A., Elsner, A., Becker, W., Gries, U., & Freiberger, A. (2020). Age-related efficiency loss of household refrigeration appliances: Development of an approach to measure the degradation of insulation properties. Applied Thermal Engineering, 173, Article 115113. https://doi.org/10.1016/j.applthermaleng.2020.115113","short":"C. Hueppe, J. Geppert, R. Stamminger, H. Wagner, H. Hoelscher, J. Vrabec, A. Paul, A. Elsner, W. Becker, U. Gries, A. Freiberger, Applied Thermal Engineering 173 (2020).","bibtex":"@article{Hueppe_Geppert_Stamminger_Wagner_Hoelscher_Vrabec_Paul_Elsner_Becker_Gries_et al._2020, title={Age-related efficiency loss of household refrigeration appliances: Development of an approach to measure the degradation of insulation properties}, volume={173}, DOI={10.1016/j.applthermaleng.2020.115113}, number={115113}, journal={Applied Thermal Engineering}, publisher={Elsevier}, author={Hueppe, Christian and Geppert, Jasmin and Stamminger, Rainer and Wagner, Hendrik and Hoelscher, Heike and Vrabec, Jadran and Paul, Andreas and Elsner, Andreas and Becker, Wolfgang and Gries, Ulrich and et al.}, year={2020} }","mla":"Hueppe, Christian, et al. “Age-Related Efficiency Loss of Household Refrigeration Appliances: Development of an Approach to Measure the Degradation of Insulation Properties.” Applied Thermal Engineering, vol. 173, 115113, Elsevier, 2020, doi:10.1016/j.applthermaleng.2020.115113."},"publication_status":"published","intvolume":" 173","author":[{"last_name":"Hueppe","first_name":"Christian","full_name":"Hueppe, Christian"},{"first_name":"Jasmin","full_name":"Geppert, Jasmin","last_name":"Geppert"},{"last_name":"Stamminger","full_name":"Stamminger, Rainer","first_name":"Rainer"},{"last_name":"Wagner","full_name":"Wagner, Hendrik","first_name":"Hendrik"},{"last_name":"Hoelscher","full_name":"Hoelscher, Heike","first_name":"Heike"},{"last_name":"Vrabec","full_name":"Vrabec, Jadran","first_name":"Jadran"},{"last_name":"Paul","id":"7828","first_name":"Andreas","full_name":"Paul, Andreas"},{"full_name":"Elsner, Andreas","first_name":"Andreas","last_name":"Elsner","id":"16124"},{"last_name":"Becker","first_name":"Wolfgang","full_name":"Becker, Wolfgang"},{"full_name":"Gries, Ulrich","first_name":"Ulrich","last_name":"Gries"},{"last_name":"Freiberger","full_name":"Freiberger, Alfred","first_name":"Alfred"}]},{"_id":"15945","volume":238,"article_number":"111926","date_updated":"2023-04-28T11:32:12Z","date_created":"2020-02-20T14:08:18Z","quality_controlled":"1","publication":"Composite Structures","language":[{"iso":"eng"}],"type":"journal_article","publication_identifier":{"issn":["0263-8223"]},"year":"2020","status":"public","citation":{"ama":"Tinkloh SR, Wu T, Tröster T, Niendorf T. A micromechanical-based finite element simulation of process-induced residual stresses in metal-CFRP-hybrid structures. Composite Structures. 2020;238. doi:10.1016/j.compstruct.2020.111926","apa":"Tinkloh, S. R., Wu, T., Tröster, T., & Niendorf, T. (2020). A micromechanical-based finite element simulation of process-induced residual stresses in metal-CFRP-hybrid structures. Composite Structures, 238, Article 111926. https://doi.org/10.1016/j.compstruct.2020.111926","chicago":"Tinkloh, Steffen Rainer, Tao Wu, Thomas Tröster, and Thomas Niendorf. “A Micromechanical-Based Finite Element Simulation of Process-Induced Residual Stresses in Metal-CFRP-Hybrid Structures.” Composite Structures 238 (2020). https://doi.org/10.1016/j.compstruct.2020.111926.","ieee":"S. R. Tinkloh, T. Wu, T. Tröster, and T. Niendorf, “A micromechanical-based finite element simulation of process-induced residual stresses in metal-CFRP-hybrid structures,” Composite Structures, vol. 238, Art. no. 111926, 2020, doi: 10.1016/j.compstruct.2020.111926.","mla":"Tinkloh, Steffen Rainer, et al. “A Micromechanical-Based Finite Element Simulation of Process-Induced Residual Stresses in Metal-CFRP-Hybrid Structures.” Composite Structures, vol. 238, 111926, 2020, doi:10.1016/j.compstruct.2020.111926.","bibtex":"@article{Tinkloh_Wu_Tröster_Niendorf_2020, title={A micromechanical-based finite element simulation of process-induced residual stresses in metal-CFRP-hybrid structures}, volume={238}, DOI={10.1016/j.compstruct.2020.111926}, number={111926}, journal={Composite Structures}, author={Tinkloh, Steffen Rainer and Wu, Tao and Tröster, Thomas and Niendorf, Thomas}, year={2020} }","short":"S.R. Tinkloh, T. Wu, T. Tröster, T. Niendorf, Composite Structures 238 (2020)."},"publication_status":"published","user_id":"72722","department":[{"_id":"9"},{"_id":"321"},{"_id":"149"}],"title":"A micromechanical-based finite element simulation of process-induced residual stresses in metal-CFRP-hybrid structures","author":[{"id":"72722","last_name":"Tinkloh","first_name":"Steffen Rainer","full_name":"Tinkloh, Steffen Rainer"},{"first_name":"Tao","full_name":"Wu, Tao","last_name":"Wu"},{"last_name":"Tröster","id":"553","first_name":"Thomas","full_name":"Tröster, Thomas"},{"last_name":"Niendorf","full_name":"Niendorf, Thomas","first_name":"Thomas"}],"project":[{"_id":"52","name":"Computing Resources Provided by the Paderborn Center for Parallel Computing"}],"doi":"10.1016/j.compstruct.2020.111926","intvolume":" 238"}]