J. Mexmain scite author profile

J. Mexmain

5Publications

73Citation Statements Received

8Citation Statements Given

How they've been cited

212

How they cite others

Affiliations

Atomic Energy and Alternative Energies Commission, CEA DAM Île-de-France, University of Limoges

Publications

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Calcul de propriétés thermodynamiques et des coefficients de transport dans un plasma Ar-O2 en non-équilibre thermodynamique et à la pression atmosphérique

Aubreton

Bonnefoi

Mexmain

1986

Rev. Phys. Appl. (Paris)

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2014 La composition du plasma thermique hors équilibre thermodynamique est calculée par une méthode statistique que nous avons appliqué aux plasmas de mélange argon-oxygène. Notre formalisme de calcul des coefficients de transport, pour ces plasmas, utilisent la définition classique des intégrales de collision. Pour leurs déterminations, nous avons donc sélectionné dans la littérature les potentiels d'interaction ou les sections efficaces de transfert (moment et charge) nécessaires. Les propriétés de transport (viscosité, conductivité électrique et conductibilité thermique) sont calculées : 2014 pour cinq valeurs du rapport O2/(O2 + Ar) de l'oxygène pur à l'argon pur, 2014 pour Te (température électronique) évoluant de 2 000 K à 15 000 K, 2014 pour cinq valeurs du rapport 03B8 = Te/Th (Th température des particules lourdes) : 03B8 = 1 (équilibre), 1,5,2, 3 et 4, 2014 pour la pression atmosphérique. Finalement, nos résultats sont comparés avec ceux de la littérature.Abstracts. 2014 For a thermal non-equilibrium Ar-O2 plasma, we compute the numerical densities by a statistical method. Our formalism of transport coefficients, for these kind of plasmas, uses the classical collision integrals. Therefore the collision integrals are determined from selected interaction potentials or from transfer cross-sections (charge and momentum). The transport properties (viscosity, electrical and thermal conductivity) are calculated : 2014 for five values of the O2/(O2 + Ar) ratio, from pure oxygen to pure argon plasma, 2014 for Te (Te is the electronic temperature) varying from 2 000 K to 15 000 K by step of 100 K, 2014 for five values of 03B8 = Te/Th (Th is the heavy particle temperature), 03B8 = 1 (equilibrium), 1.5, 2, 3 and 4. 2014 for the atmospheric pressure. At last, our results are compared to those of the literature.

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Sintering, oxidation and mechanical properties of hot pressed aluminium nitride

Boch

Glandus

Jarrige

et al. 1982

Ceramics International

109

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New Approach, Taking into Account Elastic and Inelastic Processes, for Transport Properties of a two Temperature Plasma

Bonnefoi

Aubreton

Mexmain

1985

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Temperature measurements of shock heated materials using multispectral pyrometry: Application to bismuth

1999

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Powder compaction with ultrasonic assistance

et al. 1990

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J. Mexmain

Calcul de propriétés thermodynamiques et des coefficients de transport dans un plasma Ar-O2 en non-équilibre thermodynamique et à la pression atmosphérique

Sintering, oxidation and mechanical properties of hot pressed aluminium nitride

New Approach, Taking into Account Elastic and Inelastic Processes, for Transport Properties of a two Temperature Plasma

Temperature measurements of shock heated materials using multispectral pyrometry: Application to bismuth

Powder compaction with ultrasonic assistance

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