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Languages : en
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The alloying characteristics of the rare earth elements with the transition metals undergo a radical change as the atomic number of the transition series increases--transition elements in Groups IVa, Va, and VIa are immiscible with the rare earths, while elements of Groups VIla, and VIIIa, VIIIb and VIIIc form many compounds. Since this cannot be correlated with a size effect, a reasonable explanation for this behavior is a valency or electronegativity effect. Those binary systems forming compounds form ''Laves phases, '' which can exist in one of three related crystal structure types: MgCu2, MgZn2, or MgNi2. The specific Laves-type crystal structure can be related to the average free electron concentration, a phenomenon which has been used to calculate electronic valency of the transition elements. A compilation of the known Laves-type phases occurring between rare earth elements and transition metals supports the hypothesis that the valency effect is operative. Additional rare earth-transition metal compounds previously unknown have been prepared and found to be cons is tent with the previously noted trend. On the assumption that a critical electron/atom ratio determines which Laves-type structures are stable, the periodical grouping of the Laves-type species of the rare earth-transition metal compounds indicates a slight but regular increase in valency as the atomic number of the rare earth increases. Ternary alloys prepared between the Laves phases of different structure types substantiate the observed valency trend. (auth).
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Languages : en
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Book Description
The alloying characteristics of the rare earth elements with the transition metals undergo a radical change as the atomic number of the transition series increases--transition elements in Groups IVa, Va, and VIa are immiscible with the rare earths, while elements of Groups VIla, and VIIIa, VIIIb and VIIIc form many compounds. Since this cannot be correlated with a size effect, a reasonable explanation for this behavior is a valency or electronegativity effect. Those binary systems forming compounds form ''Laves phases, '' which can exist in one of three related crystal structure types: MgCu2, MgZn2, or MgNi2. The specific Laves-type crystal structure can be related to the average free electron concentration, a phenomenon which has been used to calculate electronic valency of the transition elements. A compilation of the known Laves-type phases occurring between rare earth elements and transition metals supports the hypothesis that the valency effect is operative. Additional rare earth-transition metal compounds previously unknown have been prepared and found to be cons is tent with the previously noted trend. On the assumption that a critical electron/atom ratio determines which Laves-type structures are stable, the periodical grouping of the Laves-type species of the rare earth-transition metal compounds indicates a slight but regular increase in valency as the atomic number of the rare earth increases. Ternary alloys prepared between the Laves phases of different structure types substantiate the observed valency trend. (auth).
Author: Rodney P. Elliot
Publisher:
ISBN:
Category : Alloys
Languages : en
Pages : 40
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Book Description
The alloying characteristics of the rare earth elements with the transition metals undergo a radical change as the atomic number of the transition series increases - - transition elements in Groups IVa, Va, and VIa are immiscible with the rare earths, while elements of Groups VIIa, and VIIIa, VIIIb, and VIIIc form many compounds. Since this cannot be correlated with a size effect, a reasonable explanation for this behavior is a valency or electronegativity effect. Those binary systems forming compounds form 'Laves phases', which can exist in one of three related crystal structure types: MgCu2, MgZn2, or MgNi2. The specific Laves type crystal structure can be related to the average free electron concentration, a phenomenon which has been used to calculate electronic valency of the transition elements. A compilation of the known Laves-type phases occurring between rare earth elements and transition metals supports the hypothesis that the valency effect is operative. Forty-two additional rare earth-transition metal compounds previously unknown have been prepared and found to be consistent with the previously noted trend with but two exceptions. On the assumption that a critical electron/atom ratio determines which Laves-type structures are stable, the periodical grouping of the Laves-type species of the rare earth-transition metal compounds indicates a slight but regular increase in valency as the atomic number of the rare earth increases. Ternary alloys prepared between the Laves phases of different structure types substantiate the observed valency trend.
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Languages : en
Pages : 0
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Book Description
The alloying characteristics of the rare earth elements with the transition metals undergo a radical change as the atomic number of the transition series increases - - transition elements in Groups IVa, Va, and VIa are immiscible with the rare earths, while elements of Groups VIIa, and VIIIa, VIIIb, and VIIIc form many compounds. Since this cannot be correlated with a size effect, a reasonable explanation for this behavior is a valency or electronegativity effect. Those binary systems forming compounds form 'Laves phases', which can exist in one of three related crystal structure types: MgCu2, MgZn2, or MgNi2. The specific Laves type crystal structure can be related to the average free electron concentration, a phenomenon which has been used to calculate electronic valency of the transition elements. A compilation of the known Laves-type phases occurring between rare earth elements and transition metals supports the hypothesis that the valency effect is operative. Forty-two additional rare earth-transition metal compounds previously unknown have been prepared and found to be consistent with the previously noted trend with but two exceptions. On the assumption that a critical electron/atom ratio determines which Laves-type structures are stable, the periodical grouping of the Laves-type species of the rare earth-transition metal compounds indicates a slight but regular increase in valency as the atomic number of the rare earth increases. Ternary alloys prepared between the Laves phases of different structure types substantiate the observed valency trend.
Author: Mohamed Hafez Ebrahim Shawkey Hafez
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Category :
Languages : en
Pages :
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Author: W.E. Wallace
Publisher: Elsevier
ISBN: 032315803X
Category : Science
Languages : en
Pages : 279
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Book Description
Rare Earth Intermetallics provides an account of the magnetic characteristics of rare earth intermetallics. This book discusses bulk magnetic characteristics, such as temperature dependence of susceptibility, saturation magnetization, nature of the cooperative magnetic phase, low temperature specific heats, and related thermal properties. Other topics include the magnetic interactions, crystal field interaction by the operator equivalent method, and rare earth-nontransition metal systems. The miscellaneous IVA compounds, rare earth substitution, variation in the iron moment, and compounds with 4d and 5d transition metals are also elaborated in this text. This publication is recommended for students and researchers interested in rare earth intermetallics.
Author: Leroy Eyring
Publisher: Elsevier
ISBN: 1483157776
Category : Science
Languages : en
Pages : 581
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Book Description
Progress in the Science and Technology of the Rare Earths
Author: Hartmut Yersin
Publisher: Springer Science & Business Media
ISBN: 9783540209485
Category : Science
Languages : en
Pages : 312
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Book Description
With contribution by numerous experts
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Category : Nuclear energy
Languages : en
Pages : 658
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Category : Energy development
Languages : en
Pages : 410
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Author: J.X. Boucherle
Publisher: Elsevier
ISBN: 1483257231
Category : Science
Languages : en
Pages : 733
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Book Description
Anomalous Rare Earths and Actinides: Valence Fluctuation and Heavy Fermions focuses on the characteristics, reactions, transformations, technologies, and processes involved in the study of anomalous rare earths and actinides. The selection first offers information on lanthanides and actinides and electronic structures in cerium monopnictides. Topics include rare earth metals with fluctuating valencies, 'normal' rare earth metals, and band calculation and Fermi surface. The text then elaborates on neutron scattering studies of anomalous rare earth compounds, including magnetic neutron scattering measurements, stability and localization of magnetic moments, and condensed state. The manuscript examines the transport properties of cerium monochalcogenides and pressure-volume relationships of cerium monochalcogenides and monopnictides. The text also ponders on the theory of anisotropic magnetic behavior in hybridizing actinide systems; band hybridization effects on indirect magnetic coupling of localized moments; and neutron scattering from transuranium materials. The selection is a dependable reference for readers interested in the research on anomalous rare earths and actinides.
