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Increasing flexibility of self-pierce riveting using numerical and statistical methods

Erhöhung der Flexibilität des Stanznietens durch numerische und statistische Verfahren
 
: Falk, Tobias; Jäckel, Mathias

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Volltext ()

Procedia manufacturing 29 (2019), S.264-270
ISSN: 2351-9789
International Conference on Sheet Metal (SHEMET) <18, 2019, Leuven>
Englisch
Zeitschriftenaufsatz, Konferenzbeitrag, Elektronische Publikation
Fraunhofer IWU ()
self-pierce riveting; sensitivity analyses; tool optimization

Abstract
Self-pierce riveting with semi-tubular rivets (SPR-ST) is currently the most important joining technology for modern mixed-material car body constructions. In these body designs a multitude of material and thickness combinations occurs and for many of these combinations individual parameters of the SPR-ST process like the rivet length and die geometry have to be determined. This paper shows an approach to increase the flexibility of the SPR-ST process by the determination of the process parameters using FEM simulations in combination with statistical methods.
In the described investigations one parameter set is derived for the SPR-ST process from seven different material combinations with steel and aluminum materials. For each material combination a simulation model is validated by the comparison of the joint geometry and force-stroke diagram from the experimental reference joints with the results from the process simulation. On the basis of the validated simulation models, numerical sensitivity analyses are carried out for each material combination to investigate the correlations between the process parameters die geometry and rivet length with important quality characteristics of the joint like interlock, minimal thickness of the die-sided sheet and joining force. With the knowledge of these studies computed process optimizations are carried out, in order to define one die geometry to join all seven material combinations in good quality, so a tool changing is no longer required. The reduction from seven to only one optimized SPR-ST tool saves costs as well as processing time and production space.

: http://publica.fraunhofer.de/dokumente/N-559188.html