Characterization of dynamic hardening behavior at intermediate strain rates using the virtual fields method
Characterization of dynamic hardening behavior at intermediate strain rates using the virtual fields method
Crash analysis simulation is now very important in automotive industry to assess automotive
crashworthiness and safety. In order to acquire reliable crash simulation results, precise material
behaviors at intermediate strain rates should be used as input data. To derive the stress-strain curves at
various strain rates, a large number of experiments are needed, which is costly and time consuming.
The present study aims at determining the stress-strain curves of sheet metals at various strain rates
from a single dynamic experiment. A new type of high-speed tensile tester for sheet metal specimens
was built and high-speed tensile tests were carried out. Full-field heterogeneous strain fields were
measured by a digital image correlation technique using a high-speed camera. The load data was
acquired from strain gauges attached to the elastic deformation region on the specimen. Then, an inverse
identification scheme with a rate dependent hardening law was applied to retrieve dynamic parameters.
The stress-strain curves of three advanced high strength steels at intermediate strain rates (100 s-1 –
300 s-1) were successfully obtained from a single experiment.
Digital image correlation (DIC), Dynamic hardening behavior, Intermediate strain rates, Sheet metal, The virtual fields method (VFM)
Park, Jin-Seong
18c5045b-28a6-46f5-b5f9-5a97aed630de
Kim, Ji-Min
4d312cf4-8ba0-48e9-9221-9ee91d83e33e
Barlat, Frédéric
2e8d23b9-adeb-430b-8a2c-dbcdf95151ec
Lim, Ji-Ho
8c2a044e-38cc-4627-8057-337fbb7fd58e
Pierron, Fabrice
a1fb4a70-6f34-4625-bc23-fcb6996b79b4
Kim, Jin-Hwan
58c19f90-cbdc-4441-b2b8-c8969e96254f
November 2021
Park, Jin-Seong
18c5045b-28a6-46f5-b5f9-5a97aed630de
Kim, Ji-Min
4d312cf4-8ba0-48e9-9221-9ee91d83e33e
Barlat, Frédéric
2e8d23b9-adeb-430b-8a2c-dbcdf95151ec
Lim, Ji-Ho
8c2a044e-38cc-4627-8057-337fbb7fd58e
Pierron, Fabrice
a1fb4a70-6f34-4625-bc23-fcb6996b79b4
Kim, Jin-Hwan
58c19f90-cbdc-4441-b2b8-c8969e96254f
Park, Jin-Seong, Kim, Ji-Min, Barlat, Frédéric, Lim, Ji-Ho, Pierron, Fabrice and Kim, Jin-Hwan
(2021)
Characterization of dynamic hardening behavior at intermediate strain rates using the virtual fields method.
Mechanics of Materials, 162, [104101].
(doi:10.1016/j.mechmat.2021.104101).
Abstract
Crash analysis simulation is now very important in automotive industry to assess automotive
crashworthiness and safety. In order to acquire reliable crash simulation results, precise material
behaviors at intermediate strain rates should be used as input data. To derive the stress-strain curves at
various strain rates, a large number of experiments are needed, which is costly and time consuming.
The present study aims at determining the stress-strain curves of sheet metals at various strain rates
from a single dynamic experiment. A new type of high-speed tensile tester for sheet metal specimens
was built and high-speed tensile tests were carried out. Full-field heterogeneous strain fields were
measured by a digital image correlation technique using a high-speed camera. The load data was
acquired from strain gauges attached to the elastic deformation region on the specimen. Then, an inverse
identification scheme with a rate dependent hardening law was applied to retrieve dynamic parameters.
The stress-strain curves of three advanced high strength steels at intermediate strain rates (100 s-1 –
300 s-1) were successfully obtained from a single experiment.
Text
revision_Mechanics_of_Materials
- Accepted Manuscript
More information
Accepted/In Press date: 2 October 2021
e-pub ahead of print date: 5 October 2021
Published date: November 2021
Additional Information:
Funding Information:
The authors appreciate the generous support by POSCO ( Pohang Iron and Steel Company ). Prof. Pierron acknowledges the support of EPSRC through grant EP/L026910/1 .
Funding Information:
The authors appreciate the generous support by POSCO (Pohang Iron and Steel Company). Prof. Pierron acknowledges the support of EPSRC through grant EP/L026910/1.
Publisher Copyright:
© 2021 Elsevier Ltd
Keywords:
Digital image correlation (DIC), Dynamic hardening behavior, Intermediate strain rates, Sheet metal, The virtual fields method (VFM)
Identifiers
Local EPrints ID: 452504
URI: http://eprints.soton.ac.uk/id/eprint/452504
ISSN: 0167-6636
PURE UUID: 87fbb533-90d2-4f8a-8b39-89a3d8c93551
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Date deposited: 11 Dec 2021 11:21
Last modified: 17 Mar 2024 06:54
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Contributors
Author:
Jin-Seong Park
Author:
Ji-Min Kim
Author:
Frédéric Barlat
Author:
Ji-Ho Lim
Author:
Jin-Hwan Kim
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