Determination of strain rate dependence at intermediate strain rates using acceleration information
Determination of strain rate dependence at intermediate strain rates using acceleration information
Precise stress-strain characteristics of materials for intermediate strain rates need to be utilized for analyzing various events in industry such as metal forging, sheet metal forming in manufacturing processes and automotive crash tests. However, the accurate evaluation of the load is not easy at intermediate or high strain rates, owing to the inertial effect. The present study aims at characterizing the hardening behavior using acceleration data without utilizing the load information with an application to a dual-phase DP980 steel sheet sample. Virtual measurements were obtained from a finite element model to check for the minimum acceleration magnitude necessary for stable identification. The same identification procedure as that used for the experiments was adopted. Also, a high-speed tensile testing equipment for steel sheet specimens was modified to increase the acceleration magnitude to implement the proposed methodology experimentally. The virtual fields method was chosen as an inverse tool to determine the strain-rate dependence of the sheet metal specimens. The stress–strain curve of an advanced high-strength steel at intermediate strain rates obtained from the acceleration was compared with the curve from the load data, and promising results were obtained.
Dynamic hardening behavior, Inverse identification, Digital image correlation, Intermediate strain rates, Sheet metal, Acceleration
Kim, Ji-Min
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Park, Jin-Seong
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Leem, Do-Hyun
bceb4927-3399-458c-b9cd-1a7f2c78f1ae
Kim, Minki
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Barlat, Frédéric
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Pierron, Fabrice
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Kim, Jin-Hwan
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Kim, Ji-Min
4d312cf4-8ba0-48e9-9221-9ee91d83e33e
Park, Jin-Seong
18c5045b-28a6-46f5-b5f9-5a97aed630de
Leem, Do-Hyun
bceb4927-3399-458c-b9cd-1a7f2c78f1ae
Kim, Minki
d95bc78c-387c-4ca6-ba3f-e0df07bf3cb2
Barlat, Frédéric
2e8d23b9-adeb-430b-8a2c-dbcdf95151ec
Pierron, Fabrice
a1fb4a70-6f34-4625-bc23-fcb6996b79b4
Kim, Jin-Hwan
58c19f90-cbdc-4441-b2b8-c8969e96254f
Kim, Ji-Min, Park, Jin-Seong, Leem, Do-Hyun, Kim, Minki, Barlat, Frédéric, Pierron, Fabrice and Kim, Jin-Hwan
(2022)
Determination of strain rate dependence at intermediate strain rates using acceleration information.
International Journal of Impact Engineering, 173.
(doi:10.1016/j.ijimpeng.2022.104482).
Abstract
Precise stress-strain characteristics of materials for intermediate strain rates need to be utilized for analyzing various events in industry such as metal forging, sheet metal forming in manufacturing processes and automotive crash tests. However, the accurate evaluation of the load is not easy at intermediate or high strain rates, owing to the inertial effect. The present study aims at characterizing the hardening behavior using acceleration data without utilizing the load information with an application to a dual-phase DP980 steel sheet sample. Virtual measurements were obtained from a finite element model to check for the minimum acceleration magnitude necessary for stable identification. The same identification procedure as that used for the experiments was adopted. Also, a high-speed tensile testing equipment for steel sheet specimens was modified to increase the acceleration magnitude to implement the proposed methodology experimentally. The virtual fields method was chosen as an inverse tool to determine the strain-rate dependence of the sheet metal specimens. The stress–strain curve of an advanced high-strength steel at intermediate strain rates obtained from the acceleration was compared with the curve from the load data, and promising results were obtained.
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Determination of strain rate dependence at intermediate strain rates using acceleration information
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Accepted/In Press date: 22 December 2022
e-pub ahead of print date: 24 December 2022
Keywords:
Dynamic hardening behavior, Inverse identification, Digital image correlation, Intermediate strain rates, Sheet metal, Acceleration
Identifiers
Local EPrints ID: 475338
URI: http://eprints.soton.ac.uk/id/eprint/475338
PURE UUID: ed3fc90a-b5df-44bb-b5ee-a63540b9e8eb
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Date deposited: 15 Mar 2023 17:45
Last modified: 17 Mar 2024 07:41
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Contributors
Author:
Ji-Min Kim
Author:
Jin-Seong Park
Author:
Do-Hyun Leem
Author:
Minki Kim
Author:
Frédéric Barlat
Author:
Jin-Hwan Kim
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