Potentials of induction heating for hot metal forming of car body parts

verfasst von: Bernard Nacke, Andre Dietrich
Abstract: Due to growing challenges regarding crash-performance, CO2 emission as well as increasing demand for lightweight construction, hot forming of car body parts has risen to one of the most important technologies for saving weight of a car body. During hot forming shaped blanks of steel are heated and austenitized at around 950°C and subsequently quenched for martensitic formation. Currently the heating is realized in roller hearth furnaces which allow only a slow heating and, therefore, limited production. Additionally, due to the indirect heating principle of roller hearth furnaces the energy efficiency is low. Induction heating for hot metal forming offers a big potential to increase the production rate dramatically and also to improve the energy efficiency. Only due to the fact, that the heated parts typically are already pre-shaped and mostly have already holes and cut-outs induction heating becomes a very complex task. Beside, induction heating always accompanied by driven forces can lead to problems if the blanks are coated by a low melting coating alloy like AlSi. In the first part the paper compares different possible induction heating methods (longitudinal flux heating, transverse flux heating, single stage induction heating, hybrid heating by induction and conventional heating) and describes the potentials and limitations of induction heating in dependence of the production conditions. In the second part of the paper numerical and experimental results of an investigation for a single stage induction heating process for hot forming of pre-shaped blanks and design rules for the induction heating system are presented.
Organisationseinheit(en): Institut für Elektroprozesstechnik
Typ: Aufsatz in Konferenzband
Seiten: 32-41
Anzahl der Seiten: 10
Publikationsdatum: 2018
Publikationsstatus: Veröffentlicht
Peer-reviewed: Ja
ASJC Scopus Sachgebiete: Philosophie, Fahrzeugbau, Physik der kondensierten Materie, Oberflächen, Beschichtungen und Folien
Ziele für nachhaltige Entwicklung: SDG 7 – Erschwingliche und saubere Energie

BibTeX

@inproceedings{a18e07a4454a4b9f99e9cc2a57ce8f53,
title = "Potentials of induction heating for hot metal forming of car body parts",
abstract = "Due to growing challenges regarding crash-performance, CO2 emission as well as increasing demand for lightweight construction, hot forming of car body parts has risen to one of the most important technologies for saving weight of a car body. During hot forming shaped blanks of steel are heated and austenitized at around 950°C and subsequently quenched for martensitic formation. Currently the heating is realized in roller hearth furnaces which allow only a slow heating and, therefore, limited production. Additionally, due to the indirect heating principle of roller hearth furnaces the energy efficiency is low. Induction heating for hot metal forming offers a big potential to increase the production rate dramatically and also to improve the energy efficiency. Only due to the fact, that the heated parts typically are already pre-shaped and mostly have already holes and cut-outs induction heating becomes a very complex task. Beside, induction heating always accompanied by driven forces can lead to problems if the blanks are coated by a low melting coating alloy like AlSi. In the first part the paper compares different possible induction heating methods (longitudinal flux heating, transverse flux heating, single stage induction heating, hybrid heating by induction and conventional heating) and describes the potentials and limitations of induction heating in dependence of the production conditions. In the second part of the paper numerical and experimental results of an investigation for a single stage induction heating process for hot forming of pre-shaped blanks and design rules for the induction heating system are presented.",
author = "Bernard Nacke and Andre Dietrich",
year = "2018",
language = "English",
pages = "32--41",
editor = "Robert Goldstein and Mackenzie, {D. Scott} and Lesley Frame and Lynn Ferguson and Dave Guisbert",
booktitle = "Thermal Processing in Motion 2018",
publisher = "ASM International",
address = "United States",
note = "Thermal Processing in Motion 2018 - Including the 4th International Conference on Heat Treatment and Surface Engineering in Automotive Applications ; Conference date: 05-06-2018 Through 07-06-2018",
}