Goehler T, Schwalbe C, Svoboda J, Affeldt E, Singer R (2016)
Publication Language: English
Publication Status: Published
Publication Type: Conference contribution, Conference Contribution
Publication year: 2016
Publisher: Minerals, Metals and Materials Society
Pages Range: 655-664
Conference Proceedings Title: Superalloys 2016: Proceedings of the 13th Intenational Symposium of Superalloys
ISBN: 9781118996669
DOI: 10.1002/9781119075646.ch70
Using the predictions made by a microstructure sensitive creep model for high-γ′-containing superalloys, this study will compare the predictions made for the dislocation activity during different stages of the microstructural evolution against experimental results in order to understand the role and influence of microstructural coarsening. Furthermore a composition simulation was undertaken to present optimization potential with respect to microstructural coarsening properties.
APA:
Goehler, T., Schwalbe, C., Svoboda, J., Affeldt, E., & Singer, R. (2016). Discussing the effect of gamma prime coarsening on high temperature low stress creep deformation with respect to the role of refractory elements. In M. Hardy, E. Huron, U. Glatzel, B. Griffin, B. Lewis, C. Rae, V. Seetharaman, S. Tin (Eds.), Superalloys 2016: Proceedings of the 13th Intenational Symposium of Superalloys (pp. 655-664). Seven Springs, US: Minerals, Metals and Materials Society.
MLA:
Goehler, T., et al. "Discussing the effect of gamma prime coarsening on high temperature low stress creep deformation with respect to the role of refractory elements." Proceedings of the 13th International Symposium on Superalloys, SUPERALLOYS 2016, Seven Springs Ed. M. Hardy, E. Huron, U. Glatzel, B. Griffin, B. Lewis, C. Rae, V. Seetharaman, S. Tin, Minerals, Metals and Materials Society, 2016. 655-664.
BibTeX: Download