Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Takasugi, T.
Yoshida, M.
and
Hanada, S.
1995.
Microstructure and high-temperature deformation of the C15 NbCr2-based Laves intermetallics in Nb–Cr–V alloy system.
Journal of Materials Research,
Vol. 10,
Issue. 10,
p.
2463.
Kumar, K. S.
1996.
Laves Phase-Based Materials: Microstructure, Deformation Modes and Properties.
MRS Proceedings,
Vol. 460,
Issue. ,
Bewlay, B.P.
and
Jackson, M. R.
1996.
The effect of Hf and Ti additions on microstructure and properties of Cr2Nb–Nb in situ composites.
Journal of Materials Research,
Vol. 11,
Issue. 8,
p.
1917.
Chen, Katherine C.
Allen, Samuel M.
and
Livingston, James D.
1996.
Assessment of the Compositional Influences on the Toughness of TiCr2-Base Laves Phase Alloys.
MRS Proceedings,
Vol. 460,
Issue. ,
Yoshida, M.
and
Takasugi, T.
1997.
The alloying effect on the high temperature deformation of Laves phase NbCr2 intermetallic compound.
Materials Science and Engineering: A,
Vol. 234-236,
Issue. ,
p.
873.
Chen, Katherine C.
Kotula, Paul G.
Chu, Fuming
and
Thoma, Dan J.
1997.
Formation of a Metastable BCC Solid Solution and Decomposition to aC15 Laves Phase in Melt-Spun CrNb10Ti10.
MRS Proceedings,
Vol. 481,
Issue. ,
Yoshida, M.
and
Takasugi, T.
1997.
Phase relation and microstructure of Nb-Cr-V and Nb-Cr-Mo alloy systems.
Materials Science and Engineering: A,
Vol. 224,
Issue. 1-2,
p.
69.
Takasugi, T.
and
Yoshida, M.
1998.
The Effect of Ternary Addition on Structure and Stability of NbCr2 Laves Phases.
Journal of Materials Research,
Vol. 13,
Issue. 9,
p.
2505.
Chu, F.
Zhu, Q.
Thoma, D. J.
and
Mitchell, T. E.
1998.
Structural and defect analysis of V-alloyed CIS NbCr2from high resolution synchrotron X-ray powder diffraction.
Philosophical Magazine A,
Vol. 78,
Issue. 3,
p.
551.
Chen, Katherine C
Allen, Samuel M
and
Livingston, James D
1998.
Factors affecting the room-temperature mechanical properties of TiCr2-base Laves phase alloys.
Materials Science and Engineering: A,
Vol. 242,
Issue. 1-2,
p.
162.
Yoshida, M.
and
Takasugi, T.
1999.
Phase relation and microstructure of the Nb–Cr–W alloy system.
Materials Science and Engineering: A,
Vol. 262,
Issue. 1-2,
p.
107.
Brady, M. P.
Pint, B. A.
Tortorelli, P. F.
Wright, I. G.
and
Hanrahan Jr., R. J.
2000.
Materials Science and Technology: A Comprehensive Treatment.
p.
229.
Kim, W.-Y.
and
Takasugi, T.
2003.
Laves phase fields in Cr–Zr–Nb and Cr–Zr–Hf alloy systems.
Scripta Materialia,
Vol. 48,
Issue. 5,
p.
559.
Nakagawa, Y.
Ohta, T.
Kaneno, Y.
Inoue, H.
and
Takasugi, T.
2004.
Defect structures and room-temperature mechanical properties of C15 laves phases in Zr-Nb-Cr and Zr-Hf-Cr alloy systems.
Metallurgical and Materials Transactions A,
Vol. 35,
Issue. 11,
p.
3469.
Ohta, T.
Kaneno, Y.
Inoue, H.
Takasugi, T.
and
Hanada, S.
2005.
Phase field and room-temperature mechanical properties of the C15 laves phase in the Zr-Ta-Cr alloy system.
Metallurgical and Materials Transactions A,
Vol. 36,
Issue. 3,
p.
583.
Hu, Yan-Ling
Vasiliev, Alexandre
Zhang, Lichun
Song, Kai
and
Aindow, Mark
2009.
Polymorphism in the Laves-phase precipitates of a quinternary Nb–Mo–Cr–Al–Si alloy.
Scripta Materialia,
Vol. 60,
Issue. 2,
p.
72.
He, Cuiyun
and
Stein, Frank
2010.
Thermodynamic assessment of the Cr–Al–Nb system.
International Journal of Materials Research,
Vol. 101,
Issue. 11,
p.
1369.
Brady, M. P.
Pint, B. A.
Tortorelli, P. F.
Wright, I. G.
and
Hanrahan, R. J.
2013.
Materials Science and Technology.
Li, Kewei
Li, Shuangming
Xue, Yunlong
and
Fu, Hengzhi
2013.
Microstructure characterization and mechanical properties of a Laves-phase alloy based on Cr2Nb.
International Journal of Refractory Metals and Hard Materials,
Vol. 36,
Issue. ,
p.
154.
Li, K. W.
Li, S. M.
Wang, X. B.
Zhong, H.
Xue, Y. L.
and
Fu, H. Z.
2015.
Improvement of room temperature fracture toughness in Cr2Nb-based alloys by heat treatment.
Materials Science and Technology,
Vol. 31,
Issue. 1,
p.
59.