The infra-red analysis of solid substances. A review

Duyckaerts, G.

doi:10.1039/an9598400201

Cited by 132 publications

(41 citation statements)

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“…In order to interpret the latter observation, it will be instructive to derive an equation for the transmittance of radiant energy by clay particles dispersed in water. Although satisfactory equations are available for the transmittance of radiant energy by dispersions of spheres and cubes (Otvos et al, 1957;Duyckaerts, 1959), they are not strictly applicable to dispersions of planar clay particles. Our derivation follows that of Otvos et al (1957).…”

Section: Effect Of Swellin9 On Si-o Vibrationsmentioning

confidence: 99%

Effect of Swelling on the Infrared Absorption Spectrum of Montmorillonite

Lerot

1976

Clays and clay miner.

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Abstract--The i.r. spectra of mixtures of different Na-montmorillonites were determined at several water contents between 2 and 22 g of water/g of montmorillonite. It was found that Si-O absorption is represented by four closely-spaced bands, one of which is pleochroic. The pleochroic band appeared only at higher water contents. All of these bands, excepting that with the highest wave number, shifted in frequency with increasing isomorphous substitution. None of them shifted in frequency with increasing water content.The absorption coefficient for the principal Si-O absorption decreased with increasing isomorphous substitution but increased with increasing water content. Niether isomorphous substitution nor water content appeared to have any significant effect on absorption due to O-H stretching or H-O-H bending in the interlayer water.At a critical water content for each montmorillonite, an abrupt change occurred in the absorption coefficient for the principal SilO absorption. This change was ascribed to a sudden rearrangement of the particles.

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Section: Effect Of Swellin9 On Si-o Vibrationsmentioning

confidence: 99%

Effect of Swelling on the Infrared Absorption Spectrum of Montmorillonite

Lerot

1976

Clays and clay miner.

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“…creased geometric size will eventually causk peak broadening and degradation of the signal, due to light dispersion and reflection, as was elegantly shown for calcite particles by Duyckaerts (23). Since aspect ratios 1/2r --200 are not common, fibers almost 1 mm long may be encountered.…”

Section: Ir Spectra -Transmission Versus Reflectancementioning

confidence: 93%

Quantitative IR-ATR spectrometry of asbestos fibers on membrane filters

Kimmerle¹,

Noël²,

Khorami³

1984

Can. J. Chem.

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, 441 (1984). We have developed a new IR-ATR spectroscopic technique for the identification and quantification of fibers collected on PVC filters. This nondestructive method has a detection limit of about 10 kg, involves no sample preparation, and is relatively insensitive to nonserpentine dusts normally associated with the asbestos mining and milling industries.An analysis of the ATR phenomena for a fiber matt indicates that the logarithmic ratio of the reflectivity varies with the surface concentration C as:where Cs is the concentration for a monolayer of fiber, r the mean fiber diameter. Thus, the absorption should reach a plateau when a sufficient thickness is obtained, and this nonlinear region should be attained at lower wavelength, and at lower concentrations for long fibers having a high aspect ratio. We further predict that the relative absorption A (Al)/A(AZ) where A, < A,, should decrease with fiber dimension.,.The ATR signal at 303 cm-I, corresponding to a lattice vibration, varies linearly with fiber concentration up to 100 pg/cm2, whereas the intensity of this band relative to the OH stretching band at 3690 cm-' is a monotonic function, representing the fiber morphology. Dust levels and fiber morphology established from the IR-ATR spectroscopy are consistent with measurements by light and electron microscopy. Une analyse du phCnomkne ATR pour un certain recouvrement de fibres indique que le rapport logarithrnique de la rCflectivitC varie avec la concentration a la surface C tel que:oh Cs est la concentration pour une monocouche de fibre et r le diamktre moyen de la fibre. Pour une concentration d e surface suffisante, un plateau sera obtenu plus rapidement pour les courtes longueurs d'ondes et pour les fibres ayant un rapport longueur/diamktre ClevC. Nous pouvons prCdire que I'absorption relative A(Al)/A (A2), oh A , < A,, doit dirninuer en fonction de la dimension des fibres.Le signal ATR i 303 cm-I, caractkristique de la vibration de la maille cristalline, varie IinCairement avec une concentration de 100 pg/cm2 de fibres tandis que les rapports des bandes d'absorption de 303 cm-,13690 cm-' (3690 crn-' = vibration OH) nous donnent plutBt une fonction monotone representative de la morphologie des fibres.Les niveaux d'empoussiCrage et la morphologie moyenne des fibres peuvent Ctre ttablis par ATR, et les rksultats sont compatibles avec ceux de la microscopie optique et de la microscopie Clectronique.

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“…The peaks in this region are inverted. This is unusual for KBr spectra because alkali halide salts are used to correct for the large difference in the refractive indexes between the samples and air [14,15]. Spectrum C showr the result of subtracting spectrum A from spectrum B.…”

Section: Oh Hmentioning

confidence: 99%

“…A strong broad peak near 3500 cm in figure 2 shows this. It is possible that some of the frequency differences observed between the subtraction spectra in figures 1 and 2 are due to differences in hydrogen bonding interactions with water, and also differences in the refractive index which are known to cause frequency shifts in the spectrum [15].…”

mentioning

confidence: 99%

“…Although the KBr pellet technique is very widely used, it has certain disadvantages [14,15] for the study of composites which must be considered carefully. First, grinding the composite into a powder of small particles and exposing the resulting mixutre to tremendous pressures when making the .4| pellet could certainly influence the structure of the coupling agent.…”

Section: Introductionmentioning

confidence: 99%

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Nondestructive FT-IR Sampling Technique to Study Glass Fiber Composite Interfaces

1984

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A nondestructive FT-IR sampling technique was developed to study glass fiber composites. Two coupling agents, γ-APS (γ-aminopropyltriethoxysilane) and γ-MPS (γ-methacryloxypropyltrimethoxysilane) were used to test the validity of the technique. The spectra obtained were compared with those obtained using the KBr pellet and diffuse reflectance techniques. The new technique was sensitive to changes in the coupling agent structure induced by heating, changing the drying environment, and pH. This technique could be used to monitor surface treatments on glass mats or to do quantitative studies of such systems in the 3800 to 1100 cur−1 range of the mid-infrared spectrum.

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The infra-red analysis of solid substances. A review

Cited by 132 publications

References 0 publications

Effect of Swelling on the Infrared Absorption Spectrum of Montmorillonite

Effect of Swelling on the Infrared Absorption Spectrum of Montmorillonite

Quantitative IR-ATR spectrometry of asbestos fibers on membrane filters

Nondestructive FT-IR Sampling Technique to Study Glass Fiber Composite Interfaces

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