Consolidation/synthesis of materials by electric current activated/assisted sintering, Materials Science and Engineering: R: Reports, vol.63, issue.4-6, pp.127-287, 2009. ,
Field?Assisted Sintering Technology/Spark Plasma Sintering: Mechanisms, Materials, and Technology Developments, Advanced Engineering Materials, vol.16, issue.7, pp.830-849, 2014. ,
Preface and historical perspective on spark plasma sintering, Scripta Materialia, vol.69, issue.2, pp.105-106, 2013. ,
Densification and properties of bulk nanocrystalline functional ceramics with grain size below 50nm, Journal of the European Ceramic Society, vol.33, issue.6, pp.1045-1066, 2013. ,
Spark Plasma Sintering of Commercial Zirconium Carbide Powders: Densification Behavior and Mechanical Properties, Materials, vol.8, issue.9, pp.6043-6061, 2015. ,
Local Distortions in Nanostructured Ferroelectric Ceramics through Strain Tuning, Advanced Electronic Materials, vol.1, issue.10, p.1500190, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01222865
Effect of electric current on densification behavior of conductive ceramic powders consolidated by spark plasma sintering, Acta Materialia, vol.144, pp.524-533, 2018. ,
URL : https://hal.archives-ouvertes.fr/hal-02616820
Spark plasma sintering of transparent alumina, Scripta Materialia, vol.57, issue.7, pp.607-610, 2007. ,
Rate Controlled Sintering Revisited, Sintering?85, pp.17-34, 1987. ,
Rate Controlled Sintering: A Unique Concept for Microstructural Control, Transactions of the Indian Ceramic Society, vol.66, issue.4, pp.157-166, 2007. ,
Sintering dense nanocrystalline ceramics without final-stage grain growth, Nature, vol.404, issue.6774, pp.168-171, 2000. ,
Flash Spark Plasma Sintering (FSPS) of Pure ZrB2, Journal of the American Ceramic Society, vol.97, issue.8, pp.2405-2408, 2014. ,
Flash Spark Plasma Sintering (FSPS) of Pure ZrB 2, J. Am. Ceram. Soc, vol.97, pp.2405-2408, 2014. ,
Ultra-fast and energy-efficient sintering of ceramics by electric current concentration, Scientific Reports, vol.5, issue.1, p.8513, 2015. ,
All-Materials-Inclusive Flash Spark Plasma Sintering, Scientific Reports, vol.7, issue.1, p.15071, 2017. ,
Flash (Ultra-Rapid) Spark-Plasma Sintering of Silicon Carbide, Scientific Reports, vol.6, issue.1, p.33408, 2016. ,
Flash Spark Plasma Sintering (FSPS) of ? and ? SiC, Journal of the American Ceramic Society, vol.99, issue.5, pp.1534-1543, 2016. ,
Effects of Current Confinement on the Spark Plasma Sintering of Silicon Carbide Ceramics, Journal of the American Ceramic Society, vol.98, issue.9, pp.2745-2753, 2015. ,
Spark-plasma-sintering and finite element method: From the identification of the sintering parameters of a submicronic ?-alumina powder to the development of complex shapes, Acta Materialia, vol.102, pp.169-175, 2016. ,
A case study for production of perfectly sintered complex compacts in rapid consolidation by spark sintering, Materials Science and Engineering: A, vol.354, issue.1-2, pp.234-242, 2003. ,
An Innovative Way to Produce ?-TiAl Blades: Spark Plasma Sintering, Advanced Engineering Materials, vol.17, issue.10, pp.1408-1413, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01726307
Near net shape processing of a sintered alumina component: adjustment of pressing parameters through finite element simulation, International Journal of Mechanical Sciences, vol.44, issue.12, pp.2523-2539, 2002. ,
A sacrificial material approach for spark plasma sintering of complex shapes, Scripta Materialia, vol.124, pp.126-128, 2016. ,
Spark plasma sintering and complex shapes: The deformed interfaces approach, Powder Technology, vol.320, pp.340-345, 2017. ,
Theory of sintering: from discrete to continuum, Materials Science and Engineering: R: Reports, vol.23, issue.2, pp.41-100, 1998. ,
Fundamental Aspects of Spark Plasma Sintering: II. Finite Element Analysis of Scalability, Journal of the American Ceramic Society, vol.95, issue.8, pp.2414-2422, 2012. ,
Current understanding and future research directions at the onset of the next century of sintering science and technology, Journal of the American Ceramic Society, vol.100, issue.6, pp.2314-2352, 2017. ,
Rheological basis of the theory of sintering. Nauk, 1972. ,
Identification of the Norton-Green Compaction Model for the Prediction of the Ti-6Al-4V Densification During the Spark Plasma Sintering Process, Advanced Engineering Materials, vol.18, issue.10, pp.1720-1727, 2016. ,
Identification of the Norton-Green Compaction Model for the Prediction of the Ti-6Al-4V Densification During the Spark Plasma Sintering Process, Advanced Engineering Materials, vol.18, issue.10, pp.1720-1727, 2016. ,
In-situ creep law determination for modeling Spark Plasma Sintering of TiAl 48-2-2 powder, Intermetallics, vol.86, pp.147-155, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01509753
Porosity dependence of powder compaction constitutive parameters: Determination based on spark plasma sintering tests, Scripta Materialia, vol.141, pp.62-66, 2017. ,
Thermal-electrical-mechanical simulation of the nickel densification by Spark Plasma Sintering. Comparison with experiments, Mechanics of Materials, vol.100, pp.126-147, 2016. ,
Steady-state creep of pure polycrystalline nickel from 0.3 to 0.55 Tm, Acta Metallurgica, vol.18, issue.6, pp.723-731, 1970. ,
Steady-state creep of pure polycrystalline nickel from 0.3 to 0.55 Tm, Acta Metallurgica, vol.18, issue.6, pp.723-731, 1970. ,
Finite-element modeling of the electro-thermal contacts in the spark plasma sintering process, Journal of the European Ceramic Society, vol.36, issue.3, pp.741-748, 2016. ,
Electro-thermal measurements and finite element method simulations of a spark plasma sintering device, Journal of Materials Processing Technology, vol.213, issue.8, pp.1327-1336, 2013. ,
URL : https://hal.archives-ouvertes.fr/hal-00905512
Temperature Control in Spark Plasma Sintering: An FEM Approach, Journal of Metallurgy, vol.2010, pp.1-9, 2010. ,
Contact resistances in spark plasma sintering: From in-situ and ex-situ determinations to an extended model for the scale up of the process, Journal of the European Ceramic Society, vol.37, issue.4, pp.1593-1605, 2017. ,
Fluid dynamics thermo-mechanical simulation of sintering: Uniformity of temperature and density distributions, Applied Thermal Engineering, vol.123, pp.603-613, 2017. ,
Proportional integral derivative, modeling and ways of stabilization for the spark plasma sintering process, Results in Physics, vol.7, pp.1494-1497, 2017. ,
Finite element modeling of spark plasma sintering: Application to the reduction of temperature inhomogeneities, case of alumina, Materials & Design, vol.116, pp.504-514, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01804224
Finite element analysis of the temperature uncertainty during spark plasma sintering: Influence of the experimental procedure, Ceramics International, vol.43, issue.17, pp.15281-15287, 2017. ,
URL : https://hal.archives-ouvertes.fr/hal-01804256
Fundamental investigations on the spark plasma sintering/synthesis process, Materials Science and Engineering: A, vol.394, issue.1-2, pp.139-148, 2005. ,
Pulse analysis and electric contact measurements in spark plasma sintering, Electric Power Systems Research, vol.127, pp.307-313, 2015. ,
URL : https://hal.archives-ouvertes.fr/hal-01493438
Experimental Investigation of Electric Contact Resistance in Spark Plasma Sintering Tooling Setup, Journal of the American Ceramic Society, vol.98, issue.11, pp.3553-3560, 2015. ,
Modelling of the temperature distribution during field assisted sintering, Acta Materialia, vol.53, issue.16, pp.4379-4388, 2005. ,
Microwave Sintering: Fundamentals and Modeling, Journal of the American Ceramic Society, vol.96, issue.4, pp.1003-1020, 2013. ,
Energy efficient spark plasma sintering: Breaking the threshold of large dimension tooling energy consumption, Journal of the American Ceramic Society, 2018. ,
Effects of Particle Packing Characteristics on Solid-State Sintering, Journal of the American Ceramic Society, vol.72, issue.5, pp.810-817, 1989. ,