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IDDRG 2017Numerical model for a quantitative estimation of sliver formation in shearing process

Author
Ramya Selvaraj, Luca Quagliato, Sewon Jang and Naksoo Kim
Title
Numerical model for a quantitative estimation of sliver formation in shearing process 
Conference
IDDRG,2017
Month/Year
July 2017
Location
Munich,Germany
Abstract
In the present research work a model for the estimation of the probability of sliver
formation during the shearing process, based on the amount of damage in the element adjacent
to the shearing edge, is proposed. A full material characterization, considering different
temperatures and strain rates, have been carried out in order to determine the model constants
for Johnson–Cook (JC) flow stress and damage model. A 3D numerical simulation replicating
the shearing process has been implemented in ABAQUS/Explicit and the results of the
shearing surface have been compared with those of laboratory experiments, proving the
validity of the developed simulation. Finally, while varying holder force, clearance and punch
velocity, the average damage in the elements adjacent to the shearing edge have been
calculated and the results allowed to conclude that punch velocity has the higher influence on
the damage in the shearing edge but also that holder force and clearance percentage cannot be
neglected. A too high punch velocity, as well as a higher holder force, result in an increase of
the damage state, whereas a higher clearance percentage allows reducing it. Based on the
proposed correlation between damage in the burrs and probability of sliver formation, the
combination of process parameters those assure to reduce the probability of sliver occurrence
can be identified. 
Status of Conference
published

Department of Mechanical Engineering, Sogang University, Seoul, Korea.
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