C. Bonjour scite author profile

Novel magnesium matrix composites reinforced with carbon nanotubes have been processed by powder metallurgy. Blends of metal powders and multi-wall carbon nanotubes were compacted by uniaxial hot pressing followed by hot isostatic pressing. A uniform dispersion of nanotubes in the metal matrix was obtained. A coating method of nanotubes is described, which is promising to improve the matrixreinforcement bonding strength. R54 E. Carreño-Morelli et al.: Carbon nanotube/magnesium composites

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Microstructure and mechanical properties of a high volume fraction SiC particle reinforced AlCu4MgAg squeeze casting

Shu-yao

Beffort

Cayron

et al. 1999

Materials Science and Engineering: A

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Processing and characterization of aluminium-based MMCs produced by gas pressure infiltration

Carreño-Morelli

Cutard

Schaller

et al. 1998

Materials Science and Engineering: A

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A device has been designed and built for unidirectional infiltration of ceramic preforms with a molten metal. It allows production of Al or Mg alloys reinforced with short or continuous ceramic fibres. The apparatus has been tested for different alloys and preforms by varying the process parameters (infiltration pressure, fibre content, melt superheat, preform preheat and solidification speed). As an example, full infiltration of Al 2 O 3-SAFFIL chopped preforms with an Al-4wt.%Cu-1wt.%Mg-0.5wt.%Ag alloy has been achieved under controlled conditions by using a gas pressure between 1 and 3 MPa. The resulting metal matrix composite has been characterised by microscopical observations and mechanical tests. Measurements of Young's modulus, density, microhardness and mechanical loss show that the optimal process conditions for Al-4wt.%Cu-1wt.%Mg-0.5wt.%Ag-SAFFIL composites are a temperature of 750°C for both preform and melt and the maximum infiltration pressure of 3 MPa. Preliminary tests have shown that the gas pressure infiltration apparatus is also suitable to produce continuous fibre reinforced and hybrid metal matrix composites.

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AlN/silicon Lamb-wave microsensors for pressure and gravimetric measurements

Choujaa

Tirole

Bonjour

et al. 1995

Sensors and Actuators A: Physical

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C. Bonjour

Microstructural development under irradiation in European ODS ferritic/martensitic steels

Carbon nanotube/magnesium composites

Microstructure and mechanical properties of a high volume fraction SiC particle reinforced AlCu4MgAg squeeze casting

Processing and characterization of aluminium-based MMCs produced by gas pressure infiltration

AlN/silicon Lamb-wave microsensors for pressure and gravimetric measurements

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