Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Baumann, Wolfgang
Leineweber, Andreas
and
Mittemeijer, Eric Jan
2011.
The kinetics of a polytypic Laves phase transformation in TiCr2.
Intermetallics,
Vol. 19,
Issue. 4,
p.
526.
Yang, Z.Q.
Chisholm, M.F.
Yang, B.
Ma, X.L.
Wang, Y.J.
Zhuo, M.J.
and
Pennycook, S.J.
2012.
Role of crystal defects on brittleness of C15 Cr2Nb Laves phase.
Acta Materialia,
Vol. 60,
Issue. 6-7,
p.
2637.
Schmetterer, Clemens
Khvan, Alexandra
Jacob, Aurélie
Hallstedt, Bengt
and
Markus, Torsten
2014.
A New Theoretical Study of the Cr-Nb System.
Journal of Phase Equilibria and Diffusion,
Vol. 35,
Issue. 4,
p.
434.
Xue, Y.L.
Li, S.M.
Li, K.W.
Zhong, H.
and
Fu, H.Z.
2015.
Probing the polytypic transition of Laves phase Cr 2 Nb in the dual-phase Cr–20Nb–40Ti alloy.
Materials Chemistry and Physics,
Vol. 167,
Issue. ,
p.
119.
Ivanchenko, Volodymyr
Cornish, Lesley
and
Watson, Andy
2016.
Cr-Nb Binary Phase Diagram Evaluation.
MSI Eureka,
Vol. 66,
Issue. ,
p.
20.26161.2.2.
Yang, Xu-Sheng
Sun, Sheng
Ruan, Hai-Hui
Shi, San-Qiang
and
Zhang, Tong-Yi
2017.
Shear and shuffling accomplishing polymorphic fcc γ → hcp ε → bct α martensitic phase transformation.
Acta Materialia,
Vol. 136,
Issue. ,
p.
347.
Wang, Li
Song, Lin
Stark, Andreas
Liu, Yong
Oehring, Michael
Lorenz, Uwe
and
Pyczak, Florian
2019.
Identification of Laves phases in a Zr or Hf containing γ-γ′ Co-base superalloy.
Journal of Alloys and Compounds,
Vol. 805,
Issue. ,
p.
880.
Müller, Franz
Gorr, Bronislava
Christ, Hans-Jürgen
Chen, Hans
Kauffmann, Alexander
Laube, Stephan
and
Heilmaier, Martin
2020.
Formation of complex intermetallic phases in novel refractory high-entropy alloys NbMoCrTiAl and TaMoCrTiAl: Thermodynamic assessment and experimental validation.
Journal of Alloys and Compounds,
Vol. 842,
Issue. ,
p.
155726.
Leineweber, Andreas
Wetzel, Marius Holger
Martin, Stefan
Shang, Shun-Li
and
Liu, Zi-Kui
2021.
Preparation of CoGe2-type NiSn2 at 10 GPa.
Zeitschrift für Naturforschung B,
Vol. 76,
Issue. 10-12,
p.
707.
Stein, Frank
and
Leineweber, Andreas
2021.
Laves phases: a review of their functional and structural applications and an improved fundamental understanding of stability and properties.
Journal of Materials Science,
Vol. 56,
Issue. 9,
p.
5321.
Hajra, Raj Narayan
Panwisawas, Chinnapat
Park, Jin Woong
Choo, Woong
Han, Byoung Jun
and
Kim, Jeoung Han
2023.
High-temperature phase stability and phase transformations of Niobium-Chromium Laves phase: Experimental and first-principles calculation studies.
Materials & Design,
Vol. 236,
Issue. ,
p.
112483.
Leineweber, Andreas
and
Stein, Frank
2024.
Comment on Hajra et al.: “High-temperature phase stability and phase transformations of Niobium-Chromium Laves phase: Experimental and first-principles calculation”.
Materials & Design,
Vol. 247,
Issue. ,
p.
113373.
Samanta, Biswajit
Jain, Ashish
Ghosh, Pabitra
Pagoti, Ramakrishna
Mollah, Md Mofizur Rahman
Senapati, Abhiram
and
Balakrishnan, S.
2024.
Experimental measurement and modeling of lattice thermal expansion and specific heat capacity of C15-Cr2Nb Laves phase intermetallic compound.
Journal of Alloys and Compounds,
Vol. 976,
Issue. ,
p.
172960.