H
Haydn N. G. Wadley
Researcher at University of Virginia
Publications - 457
Citations - 20973
Haydn N. G. Wadley is an academic researcher from University of Virginia. The author has contributed to research in topics: Coating & Chemical vapor deposition. The author has an hindex of 68, co-authored 453 publications receiving 18491 citations. Previous affiliations of Haydn N. G. Wadley include NASA Headquarters & National Institute of Standards and Technology.
Papers
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Misfit-energy-increasing dislocations in vapor-deposited CoFe/NiFe multilayers
TL;DR: In this paper, the formation of edge dislocations near the interfaces of vapor-deposited (111) [NiFe/CoFe/Cu] multilayers has been investigated.
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The topological design of multifunctional cellular metals
TL;DR: In this paper, the authors compared the performance of stochastic (foamed) cellular metals with the projected capabilities of materials with periodic cells, configured as cores of panels, tubes and shells.
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Fabrication and structural performance of periodic cellular metal sandwich structures
TL;DR: The authors showed that truss and textile cores are superior to honeycombs at low relative densities, because of their superior buckling resistance and lower manufacturing cost as well as their multifunctionality.
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Multifunctional periodic cellular metals
TL;DR: In this paper, lattice truss topologies with open cell structures were evaluated for structural load support in light-weight sandwich panel structures, and three classes of periodic cellular metals can be fabricated from a wide variety of structural alloys.
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Atomic scale structure of sputtered metal multilayers
Xiaowang Zhou,Haydn N. G. Wadley,Robert A. Johnson,D.J. Larson,N. Tabat,Alfred Cerezo,Amanda K. Petford-Long,George Davey Smith,P.H. Clifton,R.L. Martens,Thomas F. Kelly +10 more
TL;DR: In this article, a combined theoretical and experimental approach has been used to study nanoscale CoFe/Cu/CoFe multilayer films grown by sputter deposition, and a novel deposition technique is proposed which reduces both interfacial mixing and Fe depletion by controlling the incident adatom energies.