W. H. M. Alsem scite author profile

Résumé. -La résonance magnétique nucléaire est appliquée à l'étude de la variation de la vitesse des dislocations avec la contrainte de compression appliquée dans des cristaux d'halogénures alcalins. T lp a été mesurée en fonction du taux s de la déformation plastique. La route moyenne des dislocations mobiles a été déterminée. Nous indiquons les résultats des expériences sur de différents noyaux, sur de différentes orientations des cristaux et sur des températures différentes.Abstract. -Dislocations moving at various velocities in deforming alkali halide single crystals were studied using the technique of pulsed nuclear magnetic resonance. The spin lattice relaxation rate in the rotating frame is measured as a function of the plastic deformation rate 6. From this the mean free path of mobile dislocations can be determined. The results for different resonant nuclei, different crystal orientations with respect to the crystal axis and different temperatures are presented.

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Dislocation dynamics in aluminium and in aluminium-copper alloys: A nuclear magnetic resonance and transmission electron microscopic study

Tamler¹,

Kanert²,

Alsem³

et al. 1982

Acta Metallurgica

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Pulsed nuclear magnetic resonance techniques as well as transmission electron microscopy have been applied to study dislocation motion in ultrapure aluminium and aluminium+opper alloys (Al:xCu with x,, = 1 at.%). The spin-lattice relaxation rate in the rotating frame. 7,' of ".\I has been measured as a function of the plastic strain rate < at 77 K. For fimte strain rates i. the movement of dislocations induces an additional relaxation rate arising Irom time fluctuations in the nuclear quadrupole interaction. From this motion-induce part of the relaxation rate the mean free path L of mobile dislocations can be calculated which is determine by the distribution of lattice defects acting as obstacles for moving dislocations. The NMR experiments are combined with transmission electron microscopic investigations to reveal the static structure of defects in the samples. Correlations between the in situ observed mean free path L of mobile dislocations and between the microscopic defect structure arising from the agcing process (6' phase, solid solution) and the degree of plastic deformation E are shown. It turns out that in the 0' phase at small strains L is determined by the microstructure and is equal to the mean separation between the precipitates. For large strains L is determined by the statistical distribution of the dislocation loops lying between the precipitates. On the other hand, in ultrapure aluminium L is determined by the dislocation cell structure. R&sum&-Nous avons &udiC le mouvement des dislocations dans I'aluminium ultrapur et des alliages d'aluminium et de cuivre (Al:xCu avec x,,, = I at.%), par resonance magnetique nucleaire pulsee et microscopic ilectroniquc par transmission. Nous avons 6galement mesur6 la vitesse de relaxation spin-r&au dans le rep&e toumant, F;,t d' 2' Al en fonction de la vitesse de deformation plastique 1 a 77 K. Pour des vitesses de deformation finies @, le mouvement des dislocations induit une vitesse de relaxation add~tionnelle provenant des fluctuations de l'interaction nucliaire quadripolaire en fonction du temps. Pour cette partie de la vitesse de relaxation induite par le d&placement des dislocations. on peut calculer le libre parcours moyen L des dislocations mobiles, qui est determine par la r&partition des difauts reticulaires agissant comme obstacles d'opposant au dtplacement des dislocations. La RMN. associee a la microscopic eiectronique par transmission, permet de reveler la structure statique des difauts dans les echantillons. Nous presentons les correlations qui existent entre le libre parcours moven L des dislocations libres observe in situ, la structure microscopique des dtfauts provenant du vieiilissement (phase 8'. solution solide) et le degri de deformation plastique e. Dans la phase B et pour de faibles dtformations, nous determinons L a partir de la microstructure: il est egal a la separation moyenne entre les precipites. Dans le cas des fortes deformations. L est d&ermint par la repartition statistique des boucles de dislocations situ&es entre les prCcipit...

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Dislocation Dynamics in Aluminum and in Aluminum-Based Alloys Investigated by TEM and NMR Techniques

Hosson

Alsem

Tamler

et al. 1983

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On the determination of dislocation densities in NaCl single crystals from quadrupolar linewidth measurements

Alsem¹,

Hosson²

1982

Philosophical Magazine A

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W. H. M. Alsem

The orientation dependence of dislocation slip in NaCl single crystals

Dislocation dynamics in alkali halide single crystals investigated by nuclear spin relaxation measurements

Dislocation dynamics in aluminium and in aluminium-copper alloys: A nuclear magnetic resonance and transmission electron microscopic study

Dislocation Dynamics in Aluminum and in Aluminum-Based Alloys Investigated by TEM and NMR Techniques

On the determination of dislocation densities in NaCl single crystals from quadrupolar linewidth measurements

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