The influence of Saffil δ-alumina fibre reinforcement on gas entrapment and evolution in P/M Al-20Si-3Cu-1Mg- x Al2O3 composite

Compacts of an aluminium/alumina fibre composite, produced by a powder metallurgical (P/M) route, were the subject of a vacuum degassing study. The materials consisted of Al--20 wt.% Si--3 wt.% Cu--1 wt.% Mg pre-alloyed powder mixed with 0, 5 and 20 vol.% of Saffil delta -alumina fibres. The composi...

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Published in	Journal of materials science Vol. 28; no. 11; pp. 3103 - 3115
Main Authors	Ter Haar, J. H., Duszczyk, J.
Format	Journal Article
Language	English
Published	01.06.1993
Online Access	Get full text
ISSN	0022-2461 1573-4803
DOI	10.1007/BF00354717

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Abstract	Compacts of an aluminium/alumina fibre composite, produced by a powder metallurgical (P/M) route, were the subject of a vacuum degassing study. The materials consisted of Al--20 wt.% Si--3 wt.% Cu--1 wt.% Mg pre-alloyed powder mixed with 0, 5 and 20 vol.% of Saffil delta -alumina fibres. The composition of gases liberated during heating at constant rate was monitored with a quadrupole mass spectrometer. Water and hydrogen were the main volatile products released. High water and H pressures were maintained longest by the composite with the highest volume fraction of fibres. The presence of fibres gave rise to delayed peak H production when compared to the matrix. Nitrogen adsorption analysis proved that the Saffil fibre RF Milled, possesses a large specific internal surface area and points towards the presence of very fine sized porosity. Thermogravimetric analyses confirmed a high water content of the fibres of at least 0.86 wt.%. Of this, condensed and adsorbed water constitute the largest fraction. Owing to the fineness of the porosity and consequently the low concentration gradients, time as well as temperature (for enhancement of diffusion) are equally important variables to be considered for effective degassing of these composites.
AbstractList	Compacts of an aluminium/alumina fibre composite, produced by a powder metallurgical (P/M) route, were the subject of a vacuum degassing study. The materials consisted of Al--20 wt.% Si--3 wt.% Cu--1 wt.% Mg pre-alloyed powder mixed with 0, 5 and 20 vol.% of Saffil delta -alumina fibres. The composition of gases liberated during heating at constant rate was monitored with a quadrupole mass spectrometer. Water and hydrogen were the main volatile products released. High water and H pressures were maintained longest by the composite with the highest volume fraction of fibres. The presence of fibres gave rise to delayed peak H production when compared to the matrix. Nitrogen adsorption analysis proved that the Saffil fibre RF Milled, possesses a large specific internal surface area and points towards the presence of very fine sized porosity. Thermogravimetric analyses confirmed a high water content of the fibres of at least 0.86 wt.%. Of this, condensed and adsorbed water constitute the largest fraction. Owing to the fineness of the porosity and consequently the low concentration gradients, time as well as temperature (for enhancement of diffusion) are equally important variables to be considered for effective degassing of these composites.
Author	Ter Haar, J. H. Duszczyk, J.
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Cites_doi	10.1007/BF03257675 10.1007/BF00540704 10.1007/BF00557155 10.1007/BF01184990 10.1016/0921-5093(91)90538-X 10.1007/BF01107440 10.1016/0921-5093(91)90961-L 10.1021/j100839a044 10.1088/0034-4885/12/1/308
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