Max Planck Institute for Sustainable Materials

© Max-Planck-Institut für Eisenforschung GmbH

Publications of Xue Feng

All genres

Journal Article (7)

1.

Journal Article

Huang, J.; Fang, X.; Liu, X.; Lu, S.; Li, S.; Yang, Z.; Feng, X.: High-linearity hydrogen peroxide sensor based on nanoporous gold electrode. Journal of the Electrochemical Society 166 (10), pp. B814 - B820 (2019)

MPG.PuRe

2.

Journal Article

Li, Y.; Fang, X.; Zhang, S.; Feng, X.: Microstructure evolution of FeNiCr alloy induced by stress-oxidation coupling using high temperature nanoindentation. Corrosion Science 135, pp. 192 - 196 (2018)

MPG.PuRe

3.

Journal Article

Li, Y.; Fang, X.; Qu, Z.; Lu, S.-Y.; Li, H.; Zhu, T.; Yu, Q.; Feng, X.: In situ full-field measurement of surface oxidation on Ni-based alloy using high temperature scanning probe microscopy. Scientific Reports 8, 6684, pp. 1 - 9 (2018)

MPG.PuRe

4.

Journal Article

Yue, M.; Dong, X.; Fang, X.; Feng, X.: Effect of interface reaction and diffusion on stress-oxidation coupling at high temperature. Journal of Applied Physics 123 (15), 155301 (2018)

MPG.PuRe

5.

Journal Article

Fang, X.; Dong, X.; Jiang, D.; Feng, X.: Modification of the mechanism for stress-aided grain boundary oxidation ahead of cracks. Oxidation of Metals 89 (3-4), pp. 331 - 338 (2018)

MPG.PuRe

6.

Journal Article

Lu, S.-Y.; Chen, Y.; Fang, X.; Feng, X.: Prussian Blue Modified Submicron Structured Gold Electrodes for Amperometric Hydrogen Peroxide Sensing. Electroanalysis 30 (3), pp. 583 - 592 (2018)

MPG.PuRe

7.

Journal Article

Lu, S.-Y.; Chen, Y.; Fang, X.; Feng, X.: Hydrogen peroxide sensor based on electrodeposited Prussian blue film. Journal of Applied Electrochemistry 47 (11), pp. 1261 - 1271 (2017)

MPG.PuRe

Researcher

Image of Prof. Dr. Franz Roters

Prof. Dr. Franz Roters

Group Leader +49 211 6792 393 f.roters@...

Image of Assistant Professor Martin Diehl

Assistant Professor Martin Diehl

Guest Group Leader +49 211 6792 187 martin.diehl@... m.diehl@...

Image of Vitesh Shah

Vitesh Shah

Former member sek-ma@...

Image of Sharan Roongta

Sharan Roongta

+49 211 6792 163 roongta@...

Publication References

[5] F. Roters, M. Diehl, P. Shanthraj, P. Eisenlohr, J. C. Reuber, S. L. Wong, T. Maiti, A. Ebrahimi, T. Hochrainer, H.-O. Fabritius, S. D. Nikolov, M. Friák, N. Fujita, N. Grilli, K. G.F. Janssens, N. Jia, P. Kok, D. Ma, F. Meier, E. Werner, M. Stricker, D. M. Weygand, and Dierk Raabe

DAMASK – The Düsseldorf Advanced Material Simulation Kit for modeling multi-physics crystal plasticity, thermal, and damage phenomena from the single crystal up to the component scale

Comp. Mat. Sci., Vol. 158, pp. 420-478, 2019

[1] F. Roters, D. Raabe, and G. Gottstein

Work Hardening in Heterogeneous Alloys - A Microstructural Approach Based on Three Internal State Variable

Acta Mater., Vol.48, pp. 4181-4189, 2000

[2] R. G. Thiessen, J. Sietsma, T. A. Palmer, J. W. Elmer, and I. M. Richardson

Phase-field modelling and synchrotron validation of phase transformations in martensitic dual-phase steel

Acta Mater., Vol. 55, Issue 2, pp. 601-614, 2007

[3] A. Rollett

Overview of modeling and simulation of recrystallization

Prog. Mater. Sci., Vol. 42, Issue 1–4, pp. 79–99, 1997

[4] D. Den Ouden, L. Zhao, C. Vuik, J. Sietsma, and F. J. Vermolen

Modelling precipitate nucleation and growth with multiple precipitate species under isothermal conditions: Formulation and analysis

Comput. Mater. Sci., Vol. 79, pp. 933–943, 2013

[6] E. Popova, Y. Staraselski, A. Brahme, R. K. Mishra, and K. Inal

Coupled crystal plasticity - Probabilistic cellular automata approach to model dynamic recrystallization in magnesium alloys

Int. J. Plast., Vol. 66, pp. 85–102, 2015

[7] P. Zhao, T. S. E. Low, Y. Wang, and S. R. Niezgoda

An integrated full-field model of concurrent plastic deformation and microstructure evolution: Application to 3D simulation of dynamic recrystallization in polycrystalline copper

Int. J. Plasticity, Vol. 80, pp. 38-55, 2016