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Grazing

H.Toda Quantiative evaluation of fretting fatigue cracks on the surface of the railroad axles by grazing SH Wave ultrasonic method. Journal of JSNDI, Vol. 40, March, pl58-164, (1991)... [Pg.908]

The actual structure at a vapor-liquid interface can be probed with x-rays. Rice and co-workers [72,73,117] use x-ray reflection to determine the composition perpendicular to the surface and grazing incidence x-ray diffraction to study the transverse structure of an interface. In a study of bismuth gallium mixtures. [Pg.78]

Since the development of grazing incidence x-ray diffraction, much of the convincing evidence for long-range positional order in layers has come from this technique. Structural relaxations from distorted hexagonal structure toward a relaxed array have been seen in heneicosanol [215]. Rice and co-workers combine grazing incidence x-ray diffraction with molecular dynamics simulations to understand several ordering transitions [178,215-219]. [Pg.135]

Grazing incidence excitation of a fluorescent probe in a phospholipid monolayer can also be used to indicate order. The collective tilt of the molecules in a domain inferred from such measurements is indicative of long-range orientational order [222]. [Pg.136]

The diffraction pattern consists of a small number of spots whose symmetry of arrangement is that of the surface grid of atoms (see Fig. IV-10). The pattern is due primarily to the first layer of atoms because of the small penetrating power of the low-energy electrons (or, in HEED, because of the grazing angle of incidence used) there may, however, be weak indications of scattering from a second or third layer. [Pg.303]

Experimentally, it is common for LEED and Auger capabilities to be combined the basic equipment is the same. For Auger measurements, a grazing angle of incident electrons is needed to maximize the contribution of surface... [Pg.306]

Madey and co-workers followed the reduction of titanium with XPS during the deposition of metal overlayers on TiOi [87]. This shows the reduction of surface TiOj molecules on adsorption of reactive metals. Film growth is readily monitored by the disappearance of the XPS signal from the underlying surface [88, 89]. This approach can be applied to polymer surfaces [90] and to determine the thickness of polymer layers on metals [91]. Because it is often used for chemical analysis, the method is sometimes referred to as electron spectroscopy for chemical analysis (ESCA). Since x-rays are very penetrating, a grazing incidence angle is often used to emphasize the contribution from the surface atoms. [Pg.308]

HEED High-energy electron diffraction [104] Diffraction of elastically back-scattered electrons (-20 keV, grazing incidence) Surface structure... [Pg.313]

IRRAS Infrared reflection- Grazing-incidence polarized Enhanced sensitivity... [Pg.317]

There is a fair amount of work reported with films at the mercury-air interface. Rice and co-workers [107] used grazing incidence x-ray diffraction to determine that a crystalline stearic acid monolayer induces order in the Hg substrate. Quinone derivatives spread at the mercury-n-hexane interface form crystalline structures governed primarily by hydrogen bonding interactions [108]. [Pg.552]

Because the number of grazing encounters is a fimction of the diflfiision coefficient, CIDEP by the RPM mechanism is a strong fiinction of the viscosity of the solvent and, in general, the RPM becomes stronger with increasing viscosity. Pedersen and Freed [39] have developed analytical teclmiques for the fiinctional fonn of the viscosity dependence of the RPM. [Pg.1608]

Illuminating the sample at grazing angles. The penetration depth of photons depends on the cosine of the incidence angle and, therefore, can be reduced by this procedure. Although such an approach has limited use, it has been successfully employed in a few instances, such as for x-ray diffraction experiments. [Pg.1779]

When an ion beam is incident on an atomically flat surface at grazing angles, each surface atom is shadowed by its neighbouring atom such that only forwardscattering (FS) is possible these are large impact parameter (p) collisions. [Pg.1813]

Melroy O R, Toney M F, Borges G L, Samant M G, Kortright J B, Ross P N and Blum L 1989 An In situ grazing incidence x-ray scattering study of the initial stages of electrochemical growth of lead on silver(111) J. Electroanal. Chem. 258 403-14... [Pg.2758]

The dispersing element is a diffraction grating preferably used under conditions of grazing incidence (6 in Equation 3.9 about 89°) to improve the reflectance. The grating may also be concave to avoid the use of a focusing mirror. [Pg.63]

Climax vegetation is predominantiy grasses, grass-like plants, forks, and shmbs suitable for grazing and browsing. [Pg.12]

Forest land that carries grasses or forage plants used for grazing as the predominant vegetation. [Pg.12]

The development of mote intense sources (eg, plasma sources, soft x-ray lasers, and synchrotron sources) has made possible highly effective instmments both for x-ray microscopy and x-ray diffraction on a few cubic nanometer sample. The optical problem of focusing x-rays is accompHshed by the use of zone plates or by improved grazing incidence or multilayer reflectors. [Pg.332]

Combination techniques such as microscopy—ftir and pyrolysis—ir have helped solve some particularly difficult separations and complex identifications. Microscopy—ftir has been used to determine the composition of copolymer fibers (22) polyacrylonitrile, methyl acrylate, and a dye-receptive organic sulfonate trimer have been identified in acryHc fiber. Both normal and grazing angle modes can be used to identify components (23). Pyrolysis—ir has been used to study polymer decomposition (24) and to determine the degree of cross-linking of sulfonated divinylbenzene—styrene copolymer (25) and ethylene or propylene levels and ratios in ethylene—propylene copolymers (26). [Pg.148]

On the positive side, the three-dimensional nature of the resource provides it with a distinct advantage compared to other solar technologies. Specifically, because siting usually involves placing the individual turbines as high as possible, typically spacing turbines about 2 to 3 blade diameters apart crosswind and 10 diameters apart downwind, only a small fraction of a wind farm area is actually occupied. The rest of the land remains available for other appHcations, such as crop production or Hvestock grazing. [Pg.233]

In milk approximately 90% of the yellow color is because of the presence of -carotene, a fat-soluble carotenoid extracted from feed by cows. Summer milk is more yellow than winter milk because cows grazing on lush green pastures in the spring and summer months consume much higher levels of carotenoids than do cows ham-fed on hay and grain in the fall and winter. Various breeds of cows and even individual animals differ in the efficiency with which they extract -carotene from feed and in the degree to which they convert it into colorless vitamin A. The differences in the color of milk are more obvious in products made from milk fat, since here the yellow color is concentrated. Thus, unless standardized through the addition of colorant, products like butter and cheese show a wide variation in shade and in many cases appear unsatisfactory to the consumer. [Pg.441]


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Alfalfa grazing

Animals grazing

Cattle grazing

Characterization, grazing-angle

Characterization, grazing-angle spectroscopy

Clover, grazing

Copepod grazing

Crops grown for grazing

Electron grazing angle analysis

Food chains grazing

Geometry grazing incidence

Grazing - continued

Grazing Incidence Diffraction

Grazing Incidence Small Angle X-ray

Grazing Incidence X-ray Reflectivity (GXRR)

Grazing Incidence X-ray Scattering (GIXS)

Grazing angle

Grazing angle optical cell

Grazing angle reflection-absorption spectroscopy

Grazing angle specular reflectance

Grazing animals, ammonia

Grazing by zooplankton

Grazing collision

Grazing continuous

Grazing electron microscopy

Grazing geometry

Grazing incidence

Grazing incidence Fourier transform infrared

Grazing incidence Fourier transform infrared spectroscopy

Grazing incidence SAXS

Grazing incidence X-ray

Grazing incidence X-ray absorption

Grazing incidence X-ray absorption spectroscopy

Grazing incidence X-ray diffraction (GIXRD

Grazing incidence X-ray diffraction GIXD)

Grazing incidence X-ray fluorescence

Grazing incidence X-ray reflectivity

Grazing incidence X-ray scattering

Grazing incidence angle, poly

Grazing incidence of X-rays

Grazing incidence reflection

Grazing incidence reflection spectrometry

Grazing incidence scattering

Grazing incidence scattering geometry

Grazing incidence small angle X-ray scattering GISAXS)

Grazing incidence small-angle

Grazing incidence small-angle X-ray scattering

Grazing incidence spectroscopy

Grazing incidence wide-angle X-ray

Grazing incidence x-ray diffraction

Grazing incidence x-ray diffraction experiment

Grazing incidence x-ray diffraction patterns

Grazing incident X-ray diffraction

Grazing incident X-ray scattering

Grazing incident X-ray scattering (GIXS

Grazing intensity

Grazing internal reflection

Grazing livestock unit

Grazing management

Grazing management animal potential

Grazing measurement procedure

Grazing pressure

Grazing systems

Grazing trajectory

Grazing, barriers

Grazing-angle reflectance spectroscopy

Grazing-angle spectroscopy

Grazing-exit XRF

Grazing-incidence EXAFS

Grazing-incidence XAFS studies

Grazing-incidence mirrors

Grazing-incidence small-angle x-ray scattering GISAX)

Invertebrate grazing

Laser sheet at grazing incidence

Marine Chemical Ecology grazing

Microzooplankton grazing

Multiple-reflection grazing spectroscopy

Optical grazing angle

Paddock grazing

Particles grazing

Pastures and grazing animals

Principles of grazing management

Production zooplankton grazing

Ray Grazing-Incidence Diffraction Studies

Rotational grazing

Rotations grazing

Seagrasses grazing

Spring grazing

Strip grazing

The control of internal parasites by grazing management

Zooplankton grazing

Zooplankton grazing rate

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