Morris Young scite author profile

We present a high-resolution synchrotron X-ray diffraction study of xenon adsorbed on single-crystal graphite for coverages of two, three and six monolayers. We observe the evolution of the lattice mismatch between the xenon overlayer and a square root 3* square root 3R30 degrees structure commensurate with the underlying substrate. In the case of the bilayer we see a first-order incommensurate-commensurate (IC-C) phase transition at 62.0 K+or-1.2 K, which we demonstrate is consistent with the layer closest to the substrate having locked into the commensurate sites. The role of substrate quality is discussed and we conclude that previous studies on relatively poorer substrates may have favoured equilibrium structures strongly influenced by the surface imperfections. The risk of an insufficiently equilibrated adsorbate is discussed in the context of the very slow kinetics we observe for multilayer xenon on high-quality substrates. For the three- and six-layer adsorbates we observe a systematic increase in lattice mismatch with film thickness and no indication of an incommensurate-commensurate transition. We conclude that the trilayer system consists of many distinct domains approximately 500 AA across, each of which has a random close packed structure.

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The interface phase in alpha-beta titanium alloys

Margolin

Levine

Young

1977

Metall Trans A

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Electron-beam melting of Ti–6Al–4V

Landig

McKoon

Young³

1977

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A program to recycle Ti–6Al–4V machine chip scrap by electron-beam (EB) melting is described. The advantages of utilizing EB melting are described in terms of the selection of raw materials, the unique characteristics of the EB hearth furnace, the alloying and refining reactions that are promoted, and the unique character of the solidification process. Experimental results are presented on a manufacturing technology program sponsored by the Air Force Materials Laboratory in which machined chips, sponge, and alloy elements are recycled into specification grade Ti–6Al–4V bar stock.

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Mass transport through polycrystalline microstructures

Swiler¹,

Holm²,

Young³

et al. 1994

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Mass transport properties are important in polycrystalline materials used as protective films. Traditionally, such properties have been studied by examining model polycrystalline structures, such as a regular array of straight grain boundaries. However, these models do not account for a number of features of real grain ensembles, including the grain size distribution and variations in grain shape. In this study, a finite difference scheme is developed to study transient and steady-state mass transport through realistic two dimensional polycrystalline microstructures. Comparisons with the transport properties of traditional model microstructures provide regimes of applicability of such models. The effects of microstructural parameters such as average grain size are examined.

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Morris Young

The aging behavior of orthorhombic marten site in Ti-6-2-4-6

A synchrotron X-ray diffraction study of the structural phase behaviour of multilayer xenon on single-crystal graphite

The interface phase in alpha-beta titanium alloys

Electron-beam melting of Ti–6Al–4V

Mass transport through polycrystalline microstructures

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