Results 231 to 240 of about 31,512 (272)

Dataset of prototype structures adopted by intermetallic compounds with <i>AB</i> stacking. [PDF]

Data Brief
Selvaratnam B, Jaffal EI, Shiryaev D, Oliynyk AO.   +3 more
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Mechanosynthesis of intermetallic compounds

Metal Powder Report, 1992
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Possible Peierls Distortion Through Re₂ Dimer Formation in the LaNiO₂-Type Nitrides LnReN₂ (Ln = Pr, Nd). [PDF]

Angew Chem Int Ed Engl
Werhahn D, Buda AT, Steinberg S, Manuel P, Ritter C, Attfield JP, Kloß SD.   +6 more
europepmc   +1 more source

Cold bonding of aluminium to copper by deformation-enhanced diffusion. [PDF]

Sci Rep
Vullum PE, Celotto A, Grong Ø, Holmestad R.   +3 more
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Electrodeposition of Samarium Metal, Alloys, and Oxides: Advances in Aqueous and Non-Aqueous Electrolyte Systems. [PDF]

Int J Mol Sci
Rudnik E.
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Some Statistics on Intermetallic Compounds

Inorganic Chemistry, 2014
It is still largely unknown why intermetallic phases show such a large variety of crystal structures, with unit cell sizes varying between 1 and more than 20 000 atoms. The goal of our study was, therefore, to get a general overview of the symmetries, unit cell sizes, stoichiometries, most frequent structure types, and their stability fields based on ...
Julia, Dshemuchadse, Walter, Steurer
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The intermetallic compound Ni3Zr

Journal of the Less Common Metals, 1979
Abstract The intermetallic compound Ni3Zr has been isolated; it is stable at room temperature but decays by a peritectoid reaction at 940 °C according to: 4Ni3Zr → Ni7Zr2 + Ni5Zr2. Ni3Zr is a hexagonal close-packed compound of the Ni3Sn type (D019), space group P6 3 mmc .
C Becle, B Bourniquel, G Develey, M Saillard   +3 more
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Photoeffects in Intermetallic Compounds

Proceedings of the IRE, 1955
The intermetallic semiconductors are classified with respect to their crystal structure and to the place of the component elements in the periodic system. A survey is given of the properties of compounds with the zincblende and fluorite lattice. Photoeffects of individual members of these two groups are discussed. Such phenomena include photoconduction,
H. R. Frederikse, R. Blunt
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Quaternary Intermetallic Compounds

Nature, 1934
INVESTIGATORS of metallic systems by thermal and X-ray methods have found many binary intermetallic compounds ; they have found, however, only a few ternary and no quaternary compounds. If a metal or metals of one class (zinc, tin, cadmium, mercury) reacts in mercury at ordinary temperature with one of another (copper, iron, cobalt, nickel, manganese),
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TERNARY INTERMETALLIC COMPOUNDS

Russian Chemical Reviews, 1960
CONTENTS I. Introduction 364 II. General features of ternary intermetallic compounds 365 III. Ternary Kurnakov phases 366 IV. Ternary intermetallic compounds of normal valency 367 V. Electronic ternary intermetallic compounds 367 VI. Ternary Laves phases 369 VII. Ternary nickel arsenide phases 369 VIII. Ternary interstitial phases 370 IX.
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