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Philosophical Magazine B Volume 77, 1998 - Issue 1
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Original Articles

Phase stability of C15 MV2 (M=Zr, Hf or Ta): An electronic structure investigation

F. Chu Materials Science and Technology Division, MS-K765, Los Alamos National Laboratory, Los Alamos, New Mexico, 87545, USA
,
D. J. Thoma Materials Science and Technology Division, MS-K765, Los Alamos National Laboratory, Los Alamos, New Mexico, 87545, USA
,
T. E. Mitchell Materials Science and Technology Division, MS-K765, Los Alamos National Laboratory, Los Alamos, New Mexico, 87545, USA
,
C. L. Lin Department of Physics, Temple University, Philadelphia, Pennnsylvania, 19122, USA
&
M. Šob Institute of Physics of Materials, Academy of Sciences of the Czech Republic, Zižkova 22, CZ-616 62, Brno, Czech Republic
Pages 121-136 | Received 08 May 1997, Accepted 10 May 1997, Published online: 13 Aug 2009

Citations (26)

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Fei Sun, Jianxin Zhang, Shengcheng Mao & Xiaodong Han. (2013) First-principles studies of the structural and electronic properties of the C14 Laves phase XCr2 (X = Ti, Zr, Nb, Hf and Ta). Philosophical Magazine 93:19, pages 2563-2575.
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DS Agosta, RG Leisure & AV Skripov. (2007) Elastic properties of the Ta–V system: bcc Ta0.33V0.67 and C15 TaV2 . Philosophical Magazine 87:2, pages 299-306.
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R. G. Leisure, K. Foster, C. Lemier & A. V. Skripov. (2005) Thermal expansion of the C15 Laves-phase materials TaV2 and TaV2H . Philosophical Magazine 85:36, pages 4509-4514.
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J. Sun & B. Jiang. (2004) Ab initio calculation of the phase stability, mechanical properties and electronic structure of ZrCr2 Laves phase compounds. Philosophical Magazine 84:29, pages 3133-3144.
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K. Foster, J.E. Hightower, R.G. Leisuret & A.V. Skripov. (2000) Elastic moduli of the C15 Laves-phase materials TaV2, TaV2H(D)x and ZrCr2 . Philosophical Magazine B 80:9, pages 1667-1679.
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Articles from other publishers (21)

Frank Stein & Andreas Leineweber. (2020) Laves phases: a review of their functional and structural applications and an improved fundamental understanding of stability and properties. Journal of Materials Science 56:9, pages 5321-5427.
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Sardar Ahmad, Rashid Ahmad & Iftikhar Ahmad. (2019) Physical properties and possible applications of gold-based rare earth intermetallics (R-Au): A review. Journal of Magnetism and Magnetic Materials 490, pages 165477.
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Keuter, Music, Stuer & Schneider. (2019) Temperature and Impurity Induced Stabilization of Cubic HfV2 Laves Phase. Condensed Matter 4:3, pages 63.
Crossref
Lili Liu, Ping Shen, Xiaozhi Wu, Rui Wang, Weiguo Li & Qing Liu. (2017) First-principles calculations on the stacking fault energy, surface energy and dislocation properties of NbCr2 and HfCr2. Computational Materials Science 140, pages 334-343.
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Joshua Engelkemier & Daniel C. Fredrickson. (2016) Chemical Pressure Schemes for the Prediction of Soft Phonon Modes: A Chemist’s Guide to the Vibrations of Solid State Materials. Chemistry of Materials 28:9, pages 3171-3183.
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Jan ?trof, Jana Pavl?Urszula D. Wdowik, Ji?? Bur??k, Mojm?r ?ob & Jan V?e???l. (2014) Laves phases in the V?Zr system below room temperature: Stability analysis using ab initio results and phase diagram. Calphad 44, pages 62-69.
Crossref
Edgar C. Buck, Alan L. Schemer-Kohrn & Jonathan B. Wierschke. (2013) Technetium Incorporation into C14 and C15 Laves Intermetallic Phases. MRS Proceedings 1518, pages 117-122.
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Xinyu Zhang, Lin Chen, Mingzhen Ma, Yan Zhu, Suhong Zhang & Riping Liu. (2011) Structural, elastic, and thermal properties of Laves phase ZrV2 under pressure. Journal of Applied Physics 109:11.
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Chenliang Li, Jerlai Kuo, Biao Wang & Rui Wang. (2010) Effects of X (V, W, Mo, Hf, Ta, Zr) additions on the ideal cleavage fracture of Cr2Nb: First-principles determination. Intermetallics 18:1, pages 65-69.
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Chenliang Li, Biao Wang, Yuanshi Li & Rui Wang. (2009) First-principles study of the ideal cleavage fracture of Cr2Nb microalloyed by X (Al, Ni, Co, Ti). Intermetallics 17:6, pages 394-399.
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Changwen Zhang, Zhong Zhang, Shaoqing Wang, Hua Li, Jianmin Dong, Naisheng Xing, Yongquan Guo & Wei Li. (2008) First-principles study of electronic structure for the Laves-phase compounds HfFe2 and HfV2. Journal of Alloys and Compounds 448:1-2, pages 53-58.
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F. Trequattrini, F. Cordero, G. Cannelli, R. Cantelli, A. Coda & A. Gallitognotta. (2007) Phase transitions and thermally activated hydrogen dynamics in ZrV2Hx (0≤x≤1) intermetallic compounds. Journal of Alloys and Compounds 438:1-2, pages 190-194.
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Q. Yao, J. Sun, D. Lin, S. Liu & B. Jiang. (2007) First-principles studies of defects, mechanical properties and electronic structure of Cr-based Laves phases. Intermetallics 15:5-6, pages 694-699.
Crossref
F. Trequattrini, F. Cordero, G. Cannelli, R. Cantelli, A. Coda & A. Gallitognotta. (2006) Anelastic relaxation in ZrV2Hx intermetallic compounds. Materials Science and Engineering: A 442:1-2, pages 124-127.
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Jian Sun, Xue Song Sun, Feng Sun, Bin Jiang & David John Smith. (2005) Bonding Character in the Laves-Phases TiCr<sub>2</sub> and TiCo<sub>2</sub>. Materials Science Forum 475-479, pages 725-728.
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R.G. Leisure, K. Foster, J.E. Hightower & D.S. Agosta. (2003) Elastic properties of intermetallic AB2 and AB5 hydrogen-absorbing compounds. Journal of Alloys and Compounds 356-357, pages 283-289.
Crossref
K. Foster, J. E. Hightower, R. G. Leisure & A. V. Skripov. (2002) Strong hydrogen-related electronic effects on the shear elastic constant of . Physical Review B 65:9.
Crossref
R.G Leisure, K Foster, J.E Hightower, A Ode & A.V Skripov. (2002) Temperature dependence of the elastic shear modulus of the Laves-phase materials TaV2 and TaV2Hx. Journal of Alloys and Compounds 330-332, pages 396-399.
Crossref
D.J. Thoma. 2001. Encyclopedia of Materials: Science and Technology. Encyclopedia of Materials: Science and Technology 4205 4213 .
Saurav Giri, Hiroyuki Nakamura & Masayuki Shiga. (2000) NMR and NQR study of the cubic Laves-phase compound . Physical Review B 61:18, pages 12233-12240.
Crossref
C. L. Lin, Tan Yuen, T. Mihalisin & F. Chu. (2000) The effects of Fe, Co, and Ni doping on the superconductivity and structure of HfV2. Journal of Applied Physics 87:9, pages 6797-6799.
Crossref

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