Herman Voigts scite author profile

The damage state in a formed component has a significant influence on the performance of the component in service. Controlling damage evolution during forming through specific modifications of the process parameters will therefore allow an improvement of this performance. The evolution of the stress-strain state during the forming process is the primary influencing factor of the resulting damage state. The stress-strain state is influenced by the friction between tools and workpiece. To investigate the cause-effect relationship between friction and damage evolution in the deep drawing process, Finite Element simulations of the deep drawing of rotationally symmetric cups were performed. Punch velocity and blank holder force were varied. Damage was predicted using a Lemaitre damage model. The damage states predicted using a Coulomb friction law and a model incorporating a dependence on contact normal stress and relative velocity were compared. The parameter-dependent friction model predicted a change in the damage distribution after forming when varying the process parameters, which was not found using the Coulomb friction law.

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Investigation of Failure Mechanisms of Cemented Carbide Fine Blanking Punches by Means of Process Forces and Acoustic Emission

Voigts

Hild

Feuerhack

et al. 2021

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Dependencies of the die-roll height during fine blanking of case hardening steel 16MnCr5 without V-ring using a nesting strategy

Voigts

Trauth

Feuerhack

et al. 2017

Int J Adv Manuf Technol

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Investigation of the Mechanical Punch Loads during Fine Blanking of High-Strength Steels with Cemented Carbide

Baer

Feuerhack

Voigts

et al. 2019

Procedia Manufacturing

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Herman Voigts

Wear monitoring in fine blanking processes using feature based analysis of acoustic emission signals

Effect of Friction Modelling on Damage Prediction in Deep Drawing Simulations of Rotationally Symmetric Cups

Investigation of Failure Mechanisms of Cemented Carbide Fine Blanking Punches by Means of Process Forces and Acoustic Emission

Dependencies of the die-roll height during fine blanking of case hardening steel 16MnCr5 without V-ring using a nesting strategy

Investigation of the Mechanical Punch Loads during Fine Blanking of High-Strength Steels with Cemented Carbide

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