High temperature and dynamic testing of AHSS for an analytical description of the adiabatic cutting process (bibtex)
by S. Winter, F. Schmitz, T. Clausmeyer, A. E. Tekkaya, M.F.-X. Wagner
Abstract:
In the automotive industry, advanced high strength steels (AHSS) are widely used as sheet part components to reduce weight, even though this leads to several challenges. The demand for high-quality shear cutting surfaces that do not require reworking can be fulfilled by adiabatic shear cutting: High strain rates and local temperatures lead to the formation of adiabatic shear bands (ASB). While this process is well suited to produce AHSS parts with excellent cutting surface quality, a fundamental understanding of the process is still missing today. In this study, compression tests in a Split-Hopkinson Pressure Bar with an initial strain rate of 1000 s-1 were performed in a temperature range between 200 °C and 1000 °C. The experimental results show that high strength steels with nearly the same mechanical properties at RT may possess a considerably different behavior at higher temperatures. The resulting microstructures after testing at different temperatures were analyzed by optical microscopy. The thermo-mechanical material behavior was then considered in an analytical model. To predict the local temperature increase that occurs during the adiabatic blanking process, experimentally determined flow curves were used. Furthermore, the influence of temperature evolution with respect to phase transformation is discussed. This study contributes to a more complete understanding of the relevant microstructural and thermo-mechanical mechanisms leading to the evolution of ASB during cutting of AHSS.
Reference:
Winter, S., Schmitz, F., Clausmeyer, T., Tekkaya, A. E., Wagner, M.F.-X.: High temperature and dynamic testing of AHSS for an analytical description of the adiabatic cutting process, IOP Conference Series: Materials Science and Engineering 181, 012026, 2017.
Bibtex Entry:
@Article{Winter2017,
Title = {High temperature and dynamic testing of AHSS for an analytical description of the adiabatic cutting process},
Author = {Winter, S. and Schmitz, F. and Clausmeyer, T. and Tekkaya, A. E. and Wagner, M.F.-X.},
Journal = {IOP Conference Series: Materials Science and Engineering},
Year = {2017},
Month = {Mar},
Pages = {012026},
Volume = {181},
Abstract = {In the automotive industry, advanced high strength steels (AHSS) are widely used as sheet part components to reduce weight, even though this leads to several challenges. The demand for high-quality shear cutting surfaces that do not require reworking can be fulfilled by adiabatic shear cutting: High strain rates and local temperatures lead to the formation of adiabatic shear bands (ASB). While this process is well suited to produce AHSS parts with excellent cutting surface quality, a fundamental understanding of the process is still missing today. In this study, compression tests in a Split-Hopkinson Pressure Bar with an initial strain rate of 1000 s\textsuperscript{-1} were performed in a temperature range between 200 °C and 1000 °C. The experimental results show that high strength steels with nearly the same mechanical properties at RT may possess a considerably different behavior at higher temperatures. The resulting microstructures after testing at different temperatures were analyzed by optical microscopy. The thermo-mechanical material behavior was then considered in an analytical model. To predict the local temperature increase that occurs during the adiabatic blanking process, experimentally determined flow curves were used. Furthermore, the influence of temperature evolution with respect to phase transformation is discussed. This study contributes to a more complete understanding of the relevant microstructural and thermo-mechanical mechanisms leading to the evolution of ASB during cutting of AHSS.},
Doi = {10.1088/1757-899x/181/1/012026},
ISSN = {1757-899X},
Publisher = {IOP Publishing},
Url = {http://dx.doi.org/10.1088/1757-899X/181/1/012026}
}Powered by bibtexbrowser