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The GDR MFA leads, with the help of the "Groupe de Travail Sciences de la Matière" of the CNES, the research program in microgravity in the field of Material Sciences and Engineering Sciences.

The HAL collection of the GDR MFA (GDR n°2799) offers a showcase and an access to the scientific production resulting from the GDR and deposited in the HAL open archive.

Researchers can deposit in the HAL open archive the bibliographic references of their work and, within the framework set by the Law for a Digital Republic of October 7, 2016 (Article 30) and by the policies of publishers, the full text of their publications.

The HAL open archive aims to :

  • improve the international visibility and consultation of publications

  • enhance the value of the production of researchers, laboratories and institutions by ensuring a very wide dissemination, towards the academic world (researchers and students), the general public and the economic sector (civil society);

  • to guarantee a permanent and public conservation and access to publications;

  • to support the Open Access movement and Open Science.

Last update : October 2022.

Number of bibliographic references

229

Number of documents with full text

336

 

 

Last deposits

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Tags

Buoyancy Two-phase Al-Cu alloy Droplet combustion Haemodynamics Fire safety Binary liquids Heterogeneous matter statistical distribution Convection Numerical methods Pool boiling Heat transfer Microgravité Magnetorheology Aerosol combustion Phase change Emulsion Spray flame Granular Binary coalescence Wall friction Stokes flow Pulsating heat pipe Evaporation Directional solidification Hemodynamics Soret effect Bubble growth Granular gas Holographic interferometry Boiling Phase separation X-ray radiography Dissolution Microfluidics Microstructures Thermodiffusion CHF Foam Foams Suspension Red blood cell Solidification Aérosol Alloys Topical Issue Thermal non-equilibrium phenomena in multi-component fluids Experiment Instabilities Vaporization Aerosol Vesicle Vesicles Porous medium In situ experiments Bubble Natural convection Microscopy Dielectrophoretic force Flame instabilities Two-phase flow Combustion Pattern formation Droplets Diffusion Yield stress Gypsum Bubble dynamics Cellular instabilities Microstructure Flow boiling Flame propagation Capillarity Capillary waves Blood flow in cardiovascular system Microgravity Évaporation Droplet Fluids Granular matter Poiseuille flow Flows in ducts and channels Magnetic field Suspensions Instability Vibration Fluid Dynamics Boiling crisis Blood Jamming Oscillation Rheology Physiological materials Capsule/cell dynamics Capillary flow Two-phase combustion Simulation Discontinuous shear thickening Soot Liquid films Electrohydrodynamics

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