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Dispersion, analysis

A scanning electron microscope can also be equipped with additional instmmentation for electron-excited x-ray analysis (9). In many systems, this is performed in the mode known as energy dispersive x-ray analysis (edx). Other common acronyms for this method are eds for energy dispersive spectroscopy or edax for energy dispersive analysis of x-rays. [Pg.271]

The methodical elaboration is included for estimation of random and systematic errors by using of single factor dispersion analysis. For this aim the set of reference samples is used. X-ray analyses of reference samples are performed with followed calculation of mass parts of components and comparison of results with real chemical compositions. Metrological characteristics of x-ray fluorescence silicate analysis are established both for a-correction method and simplified fundamental parameter method. It is established, that systematic error of simplified FPM is less than a-correction method, if the correction of zero approximation for simplified FPM is used by preliminary established correlation between theoretical and experimental set data. [Pg.234]

Thus, based on the above, it is not surprising that even under the best conditions an uncertainty factor of approximately 2 is likely in estimates of the plume rise. Despite this somewhat pessimistic introduction, estimations of plume rise are worthwhile and an integral part of the dispersion analysis. Table 2 presents some of the well-known plume rise formulas used in different model approaches. The two major controlling variables which appear in many, if not all, of the plume rise formulas surveyed are ... [Pg.296]

HGSystem offers the most rigorous treatments of HF source-term and dispersion analysis a ailable for a public domain code. It provides modeling capabilities to other chemical species with complex thermodynamic behavior. It treats aerosols and multi-component mixtures, spillage of a liquid non-reactive compound from a pressurized vessel, efficient simulations of time-dependent... [Pg.354]

In industrial ventilation the majority of air velocity measurements are related to different means of controlling indoor conditions, like prediction of thermal comfort contaminant dispersion analysis adjustment of supply airflow patterns, and testing of local exhausts, air curtains, and other devices. In all these applications the nature of the flow is highly turbulent and the velocity has a wide range, from O.l m in the occupied zone to 5-15 m s" in supply jets and up to 30-40 m s in air curtain devices. Furthermore, the flow velocity and direction as well as air temperature often have significant variations in time, which make measurement difficult. [Pg.1152]

Table 8 shows results obtained from the application of various bulk and surface analysis methods to lithium metal at rest or after cyclization experiments, as well as at inert and carbon electrodes after cathodic polarization. The analytical methods include elemental analysis, X-ray photoelectron spectroscopy (XPS or ESCA), energy-dispersive analysis of X-rays (X-ray mi-... [Pg.481]

Energy-Dispersive Analysis (EDS). EDS is the more generally applicable and versatile system for X-ray analysis, and the detector normally consists of a small... [Pg.134]

Diffuse reflectance infrared Fourier transform spectroscopy deuterium triglycine sulphate energy compensated atom probe energy dispersive analysis energy-loss near edge structure electron probe X-ray microanalysis elastic recoil detection analysis (see also FreS) electron spectroscopy for chemical analysis extended energy-loss fine structure field emission gun focused ion beam field ion microscope... [Pg.226]

While performing dispersion analysis, the crystal aggregate is divided into several fractions the crystals of each fraction have the sizes within a given range, and the quantity of the reagent crystals from each... [Pg.470]

Energy dispersive analysis combines SEM and XRF and is used to analyse small samples, sample surfaces or contaminants in samples. [Pg.24]

The alternative approach to detection and analysis incorporates a solid state detector and a multichannel pulse height analysis system. The crystals used are of silicon (of the highly pure intrinsic type), or the lithium drift principle (p. 463 etseq.) is utilized. All emitted radiations are presented to the detector simultaneously and a spectrum is generated from an electronic analysis of the mixture of voltage pulses produced. Chapter 10 contains a more detailed account of pulse height analysis and solid state detectors. Production of an X-ray spectrum in this way is sometimes known as energy dispersive analysis ofX-rays (EDAX) and where an electron microscope is employed as SEM-EDAX. [Pg.347]

As indicated in Fig. 7.2, X-rays are among the by-products in an electron microscope. Already at the beginning of this century, people knew that matter emits X-rays when it is bombarded with electrons. The explanation of the phenomenon came with the development of quantum mechanics. Nowadays, it is the basis for determining composition on the submicron scale and, with still increasing spatial resolution, is used in the technique referred to as Electron Microprobe Analysis (EMA), Electron Probe Microanalysis (EPMA) or Energy Dispersive Analysis of X-rays (EDAX, EDX) [21]. [Pg.189]

Studies of the inorganics in cotton dust have incorporated the use of a wide variety of techniques. These include X-ray fluorescence spectroscopy, atomic absorption spectroscopy, electron microscopy, energy dispersive analysis of X-rays, X-ray diffraction, atomic absorption spectroscopy, neutron activation analysis and petrographic microscopy. It is necessary to use a wide array of techniques since no single technique will permit the measurement of all trace elements. Steindard chemical techniques to determine the ash content of samples and of various extracts have also been used. In most of these studies the ash fraction has been considered to be a reasonably accurate measure of the inorganic content. [Pg.314]

International Model 707 energy dispersive analysis of X-rays (EDAX) accessory. [Pg.334]

Schreiner M, Melcher M, Uhlir K (2007) Scanning electron microscopy and energy dispersive analysis applications in the field of cultural heritage. Anal Bioanal Chem 387 737-747. [Pg.143]

Phases Identified in Ceramic Titanate Waste Energy Dispersive Analysis Ti... [Pg.141]


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See also in sourсe #XX -- [ Pg.255 , Pg.257 ]

See also in sourсe #XX -- [ Pg.421 ]

See also in sourсe #XX -- [ Pg.244 ]




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Analysis of disperse fronts

Analysis of the MNPs Dispersed in Ionic Liquids

Analysis of the pure SWCNTs and SWCNT dispersions

Composite dispersed materials Dielectric analysis

Composite dispersed materials Modulus analysis

Compositional analysis energy dispersive

Controlled-dispersion flow analysis

Dispersing agents, analysis

Dispersion Elemental Analysis

Dispersion flow-injection analysis

Dispersion mechanisms analysis

EDAX (energy dispersive analysis

EDX (energy dispersive analysis

ELECTRON DISPERSIVE X-RAY ANALYSIS

Electron dispersive spectroscopy analysis

Electron microprobe energy-dispersive analysis

Electron microscopy energy-dispersive analysis

Energy dispersive X-ray analysis EDAX)

Energy dispersive X-ray fluorescence analysis (EDXRF

Energy dispersive analysis

Energy dispersive analysis by x-rays

Energy dispersive x-ray analysis, EDXA,

Energy-Dispersive Analysis (EDS)

Energy-Dispersive X-Ray (EDX) Analysis

Energy-dispersive X-ray analysi

Energy-dispersive X-ray analysis

Fillers dispersion thermal analysis

Flow injection analysis dispersion coefficient

Flow-injection analysis sample dispersion

Frontal Analysis, Displacement and the Equilibrium-Dispersive Model

Gas dispersion analysis

Nanoparticles energy-dispersed analysis

Numerical Analysis of the Equilibrium-Dispersive Model

Quantitative surface analysis of catalysts composition, dispersion and coverage

Scanning Electron Microscopy and Energy Dispersive Spectrometry Analyses

Scanning electron microscopy and energy dispersive analysis using X-rays

Scanning electron microscopy/energy dispersive X-ray analysis (SEM

Structural Analyses of Food Dispersions

Surface analysis dispersive

Thermogravimetric analysis dispersions

Wavelength dispersive analysis

Wavelength dispersive x-ray analysis

Wavelength-dispersive X-ray analysi

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