Optimised press-hardening process using spray cooling: process integrated heat treatment of 22MnB5 sheet metal

Publikation: Beitrag in nicht-wissenschaftlicher/populärwissenschaftlicher Zeitschrift/ZeitungBeitrag in Publikumszeitung/-zeitschriftTransfer

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Titel in ÜbersetzungProzessoptimiertes Presshärten mittels Sprühkühlung: prozessintegrierte Wärmebehandlung von Blechen des Werkstoffes 22MnB5
OriginalspracheEnglisch
Seiten316-322
Seitenumfang7
Band66
Ausgabenummer6
FachzeitschriftHTM - Haerterei-Technische Mitteilungen
PublikationsstatusVeröffentlicht - 1 Dez. 2011

Abstract

Press-hardening is a comparatively time consuming forming process since both forming as well as quenching is performed in the die tool. In order to accelerate this process, an alternative cooling strategy is considered which is based on spray cooling outside the die tool. The object of our investigation is 22MnB5 material. Quenching tests show that sufficient cooling rates greater than 50 K/s can be obtained by means of water-air spray cooling using two-component nozzles. The strength values and fracture strains realised here correspond to the mechanical properties attainable during press-hardening. Furthermore, a plant design is presented which is suitable for cooling vehicle body parts such as tunnels in order to reduce the turnaround time by means of prematurely removing the components from the die-forming tool and subsequently cooling in a spray field.

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Optimised press-hardening process using spray cooling: process integrated heat treatment of 22MnB5 sheet metal. / Diekamp, M.; Hübner, S.; Nürnberger, F. et al.
in: HTM - Haerterei-Technische Mitteilungen, Jahrgang 66, Nr. 6, 01.12.2011, S. 316-322.

Publikation: Beitrag in nicht-wissenschaftlicher/populärwissenschaftlicher Zeitschrift/ZeitungBeitrag in Publikumszeitung/-zeitschriftTransfer

Diekamp, M, Hübner, S, Nürnberger, F, Schaper, M, Behrens, BA & Bach, FW 2011, 'Optimised press-hardening process using spray cooling: process integrated heat treatment of 22MnB5 sheet metal' HTM - Haerterei-Technische Mitteilungen, Jg. 66, Nr. 6, S. 316-322. <https://www.hanser-elibrary.com/doi/pdf/10.3139/105.110118>
Diekamp, M., Hübner, S., Nürnberger, F., Schaper, M., Behrens, B. A., & Bach, F. W. (2011). Optimised press-hardening process using spray cooling: process integrated heat treatment of 22MnB5 sheet metal. HTM - Haerterei-Technische Mitteilungen, 66(6), 316-322. https://www.hanser-elibrary.com/doi/pdf/10.3139/105.110118
Diekamp M, Hübner S, Nürnberger F, Schaper M, Behrens BA, Bach FW. Optimised press-hardening process using spray cooling: process integrated heat treatment of 22MnB5 sheet metal. HTM - Haerterei-Technische Mitteilungen. 2011 Dez 1;66(6):316-322.
Diekamp, M. ; Hübner, S. ; Nürnberger, F. et al. / Optimised press-hardening process using spray cooling : process integrated heat treatment of 22MnB5 sheet metal. in: HTM - Haerterei-Technische Mitteilungen. 2011 ; Jahrgang 66, Nr. 6. S. 316-322.
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abstract = "Press-hardening is a comparatively time consuming forming process since both forming as well as quenching is performed in the die tool. In order to accelerate this process, an alternative cooling strategy is considered which is based on spray cooling outside the die tool. The object of our investigation is 22MnB5 material. Quenching tests show that sufficient cooling rates greater than 50 K/s can be obtained by means of water-air spray cooling using two-component nozzles. The strength values and fracture strains realised here correspond to the mechanical properties attainable during press-hardening. Furthermore, a plant design is presented which is suitable for cooling vehicle body parts such as tunnels in order to reduce the turnaround time by means of prematurely removing the components from the die-forming tool and subsequently cooling in a spray field.",
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T1 - Optimised press-hardening process using spray cooling

T2 - process integrated heat treatment of 22MnB5 sheet metal

AU - Diekamp, M.

AU - Hübner, S.

AU - Nürnberger, F.

AU - Schaper, M.

AU - Behrens, B. A.

AU - Bach, Fr W.

PY - 2011/12/1

Y1 - 2011/12/1

N2 - Press-hardening is a comparatively time consuming forming process since both forming as well as quenching is performed in the die tool. In order to accelerate this process, an alternative cooling strategy is considered which is based on spray cooling outside the die tool. The object of our investigation is 22MnB5 material. Quenching tests show that sufficient cooling rates greater than 50 K/s can be obtained by means of water-air spray cooling using two-component nozzles. The strength values and fracture strains realised here correspond to the mechanical properties attainable during press-hardening. Furthermore, a plant design is presented which is suitable for cooling vehicle body parts such as tunnels in order to reduce the turnaround time by means of prematurely removing the components from the die-forming tool and subsequently cooling in a spray field.

AB - Press-hardening is a comparatively time consuming forming process since both forming as well as quenching is performed in the die tool. In order to accelerate this process, an alternative cooling strategy is considered which is based on spray cooling outside the die tool. The object of our investigation is 22MnB5 material. Quenching tests show that sufficient cooling rates greater than 50 K/s can be obtained by means of water-air spray cooling using two-component nozzles. The strength values and fracture strains realised here correspond to the mechanical properties attainable during press-hardening. Furthermore, a plant design is presented which is suitable for cooling vehicle body parts such as tunnels in order to reduce the turnaround time by means of prematurely removing the components from the die-forming tool and subsequently cooling in a spray field.

KW - 22MnB5

KW - Press-hardening

KW - Spray cooling

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M3 - Contribution in non-scientific journal

AN - SCOPUS:84862556457

VL - 66

SP - 316

EP - 322

JO - HTM - Haerterei-Technische Mitteilungen

JF - HTM - Haerterei-Technische Mitteilungen

SN - 0341-101X

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