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Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System
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| Zeitschriftentitel: | Advanced Materials Research |
|---|---|
| Personen und Körperschaften: | , , |
| In: | Advanced Materials Research, 264-265, 2011, S. 48-53 |
| Format: | E-Article |
| Sprache: | Unbestimmt |
| veröffentlicht: |
Trans Tech Publications, Ltd.
|
| Schlagwörter: |
| author_facet |
An, S.H. Kwon, Ki Young Kang, Chung Gil An, S.H. Kwon, Ki Young Kang, Chung Gil |
|---|---|
| author |
An, S.H. Kwon, Ki Young Kang, Chung Gil |
| spellingShingle |
An, S.H. Kwon, Ki Young Kang, Chung Gil Advanced Materials Research Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System General Engineering |
| author_sort |
an, s.h. |
| spelling |
An, S.H. Kwon, Ki Young Kang, Chung Gil 1662-8985 Trans Tech Publications, Ltd. General Engineering http://dx.doi.org/10.4028/www.scientific.net/amr.264-265.48 <jats:p>When cooling a boron sheet that has been heated to over 900 °C by hot press forming (HPF) process, the microstructure obtains a martensitic structure by controlling the cooling rate. HPF has advantages such as improvement in formability and material properties, and minimal springback of the formed material. The facts influenced by the cooling rate are determined by the heat transfer characteristics between the heated materials and the dies. In this study, controlling of the cooling rate is addressed by controlling the heat transfer coefficient of the material during the pressing process. This study demonstrates the material properties and microstructures of the formed material during the HPF process wherein cold dies are used to form the heated steel plate. This is achieved by varying the major forming conditions: the cooling rates, which is regarded as the most important process parameter.</jats:p> Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System Advanced Materials Research |
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Advanced Materials Research |
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| title |
Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_unstemmed |
Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_full |
Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_fullStr |
Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_full_unstemmed |
Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_short |
Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_sort |
mechanical characterization behavior of boron steel sheet in hot press forming process with cooling system |
| topic |
General Engineering |
| url |
http://dx.doi.org/10.4028/www.scientific.net/amr.264-265.48 |
| publishDate |
2011 |
| physical |
48-53 |
| description |
<jats:p>When cooling a boron sheet that has been heated to over 900 °C by hot press forming (HPF) process, the microstructure obtains a martensitic structure by controlling the cooling rate. HPF has advantages such as improvement in formability and material properties, and minimal springback of the formed material. The facts influenced by the cooling rate are determined by the heat transfer characteristics between the heated materials and the dies. In this study, controlling of the cooling rate is addressed by controlling the heat transfer coefficient of the material during the pressing process. This study demonstrates the material properties and microstructures of the formed material during the HPF process wherein cold dies are used to form the heated steel plate. This is achieved by varying the major forming conditions: the cooling rates, which is regarded as the most important process parameter.</jats:p> |
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| author | An, S.H., Kwon, Ki Young, Kang, Chung Gil |
| author_facet | An, S.H., Kwon, Ki Young, Kang, Chung Gil, An, S.H., Kwon, Ki Young, Kang, Chung Gil |
| author_sort | an, s.h. |
| container_start_page | 48 |
| container_title | Advanced Materials Research |
| container_volume | 264-265 |
| description | <jats:p>When cooling a boron sheet that has been heated to over 900 °C by hot press forming (HPF) process, the microstructure obtains a martensitic structure by controlling the cooling rate. HPF has advantages such as improvement in formability and material properties, and minimal springback of the formed material. The facts influenced by the cooling rate are determined by the heat transfer characteristics between the heated materials and the dies. In this study, controlling of the cooling rate is addressed by controlling the heat transfer coefficient of the material during the pressing process. This study demonstrates the material properties and microstructures of the formed material during the HPF process wherein cold dies are used to form the heated steel plate. This is achieved by varying the major forming conditions: the cooling rates, which is regarded as the most important process parameter.</jats:p> |
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| imprint_str_mv | Trans Tech Publications, Ltd., 2011 |
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| physical | 48-53 |
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| series | Advanced Materials Research |
| source_id | 49 |
| spelling | An, S.H. Kwon, Ki Young Kang, Chung Gil 1662-8985 Trans Tech Publications, Ltd. General Engineering http://dx.doi.org/10.4028/www.scientific.net/amr.264-265.48 <jats:p>When cooling a boron sheet that has been heated to over 900 °C by hot press forming (HPF) process, the microstructure obtains a martensitic structure by controlling the cooling rate. HPF has advantages such as improvement in formability and material properties, and minimal springback of the formed material. The facts influenced by the cooling rate are determined by the heat transfer characteristics between the heated materials and the dies. In this study, controlling of the cooling rate is addressed by controlling the heat transfer coefficient of the material during the pressing process. This study demonstrates the material properties and microstructures of the formed material during the HPF process wherein cold dies are used to form the heated steel plate. This is achieved by varying the major forming conditions: the cooling rates, which is regarded as the most important process parameter.</jats:p> Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System Advanced Materials Research |
| spellingShingle | An, S.H., Kwon, Ki Young, Kang, Chung Gil, Advanced Materials Research, Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System, General Engineering |
| title | Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_full | Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_fullStr | Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_full_unstemmed | Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_short | Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| title_sort | mechanical characterization behavior of boron steel sheet in hot press forming process with cooling system |
| title_unstemmed | Mechanical Characterization Behavior of Boron Steel Sheet in Hot Press Forming Process with Cooling System |
| topic | General Engineering |
| url | http://dx.doi.org/10.4028/www.scientific.net/amr.264-265.48 |