iPhoneAlle anzeigen
iPhone 11iPhone 11 ProiPhone 11 Pro MaxiPhone 12iPhone 12 ProiPhone 12 Pro MaxiPhone 12 miniiPhone 13iPhone 13 ProiPhone 13 Pro MaxiPhone 13 miniiPhone 14iPhone 14 PlusiPhone 14 ProiPhone 14 Pro MaxiPhone 15iPhone 15 PlusiPhone 15 ProiPhone 15 Pro MaxiPhone 16iPhone 16 PlusiPhone 16 ProiPhone 16 Pro MaxiPhone 16eiPhone 8iPhone 8 PlusiPhone SE 2020iPhone SE 2022iPhone XiPhone XRiPhone XSiPhone XS Max
Galaxy A-SerieAlle anzeigen
Galaxy A12Galaxy A13Galaxy A13 5GGalaxy A14Galaxy A15Galaxy A16Galaxy A17 5GGalaxy A20eGalaxy A21Galaxy A22Galaxy A23Galaxy A24Galaxy A25Galaxy A26 5GGalaxy A32Galaxy A33Galaxy A34Galaxy A35Galaxy A36 5GGalaxy A40Galaxy A41Galaxy A42Galaxy A50Galaxy A51Galaxy A52Galaxy A53Galaxy A54Galaxy A55Galaxy A56 5GGalaxy A70Galaxy A71Galaxy A72
Redmi SeriesAlle anzeigen
Redmi 10Redmi 13CRedmi 15 5GRedmi Note 10Redmi Note 10 ProRedmi Note 11Redmi Note 11 ProRedmi Note 11 Pro Plus 5GRedmi Note 11sRedmi Note 12Redmi Note 12 5GRedmi Note 12 ProRedmi Note 12 Pro 5GRedmi Note 12 Pro PlusRedmi Note 13Redmi Note 13 5GRedmi Note 13 ProRedmi Note 13 Pro PlusRedmi Note 14Redmi Note 14 Pro PlusRedmi Note 8Redmi Note 8 ProRedmi Note 9Redmi Note 9 Pro
- Startseite
Bücher Englische Bücher Wissen & Bildung Naturwissenschaft, Medizin, Informatik, Technik Technik Maschinenbau & Fertigungstechnik FlowCurveJbyF - Standardization of Flow Curve Determination for Joining by Forming
Derzeit nicht verfügbar
Handgeprüfte Gebrauchtware
Bis zu 50 % günstiger als neu
Der Umwelt zuliebe
FlowCurveJbyF - Standardization of Flow Curve Determination for Joining by Forming
Sam Coppieters (Taschenbuch, Englisch)
★★★★★
☆☆☆☆☆ Keine Bewertungen vorhanden
Optischer Zustand
Beschreibung
The demands for joining techniques increased significantly in the last decade. Today, structures are highly optimized to meet stringent requirements with respect to a variety of performance metrics such as weight, safety and environmental impact. Given that FE modules dedicated to simulating joining by forming process reached a sufficiently high level of maturity, simulation is increasingly used… by SMEs for numerical process development, and, through the increasing digitization, also for datamining.
In important caveat, however, is that the predictive accuracy of these FE simulations strongly depends on, amongst others, the adopted material model. For an accurate calculation of the joint geometry and its mechanical strength, accurate large strain flow curves are required. A myriad of experimental techniques have been developed to determine the large strain flow curve of sheet metal. In this regard, there are two issues.
Firstly, these material tests are typically dominated by a certain stress state and yield different results depending on the degree of plastic anisotropy exhibited by the sheet metal. Secondly, due to the small dimensions of the forming tools (e.g. punch or rivet) compared to the nominal sheet thickness, joining by forming processes of sheet metal must be regarded as a bulk forming problem in which the through-thickness stress cannot be ignored. The crux of the problem here is that the plastic material behaviour of sheet metal is conventionally determined using material tests, which are confined to homogeneous plane stress conditions in the plane of the sheet.
Due to a multitude of methods for determining flow curves and the variety of phenomenological hardenings laws models to describe them, problems arise with respect to reproducibility and accuracy in joining by forming simulations. The latter threatens the advantages of numerical process development.
The aim of this research project is to devise a process-informed selection strategy for the selection of flow curves determination methods tailored for FE simulations in mechanical joining. The key point of the method is the identification of the dominating stress state in the joining by forming process at hand, which is then used to select the most appropriate material test to identify the large strain flow curve.
Several material tests are conducted in collaboration with research labs and institutes across the globe. The developed selection strategy is applied to two representative joining by forming techniques, namely clinching and self-pierce riveting. The experimental validation enabled to derive guidelines to identify accurate flow curves for simulating joining by forming processes.
The framework presented in this report enables to arrive at industrial relevant guidelines for the selecting the most appropriate method to identify the large strain flow curve, and, consequently, increase the accuracy of numerical process development in joining by forming.
https://ble-x.de/mydocs/1613 Dieses Produkt haben wir gerade leider nicht auf Lager.
Handgeprüfte Gebrauchtware
Bis zu 50 % günstiger als neu
Der Umwelt zuliebe
Technische Daten
Erscheinungsdatum
20.08.2020
Sprache
Englisch
EAN
9783867765909
Herausgeber
Europäische Forschungsgesellschaft für Blechverarbeitung e.V. (EFB)
Serien- oder Bandtitel
EFB-Forschungsbericht
Sonderedition
Nein
Autor
Sam Coppieters
Seitenanzahl
116
Auflage
1., Auflage
Einbandart
Taschenbuch
-.-
★★★★★
☆☆☆☆☆ Leider noch keine Bewertungen
Leider noch keine Bewertungen
Sicher bei rebuy kaufen
Schreib die erste Bewertung für dieses Produkt!
Wenn du eine Bewertung für dieses Produkt schreibst, hilfst du allen Kund:innen, die noch überlegen, ob sie das Produkt kaufen wollen. Vielen Dank, dass du mitmachst!
Sicher bei rebuy kaufen