His primary scientific interests are in Ceramic, Spark plasma sintering, Composite material, Sintering and Microstructure. His Ceramic study introduces a deeper knowledge of Metallurgy. His Spark plasma sintering research incorporates elements of Oxide and Dielectric.
His study on Hot pressing, Ceramic engineering and Zirconia ceramic is often connected to Ductility as part of broader study in Composite material. The study incorporates disciplines such as Flexural strength, Silicon carbide, Mineralogy and Solid-state chemistry in addition to Sintering. His work in Microstructure addresses issues such as Fracture toughness, which are connected to fields such as Sialon, Toughness, Composite number, Fracture mechanics and Whiskers.
Mats Nygren mainly focuses on Ceramic, Spark plasma sintering, Sintering, Composite material and Metallurgy. His Ceramic research is multidisciplinary, relying on both Grain size, Grain growth, Mineralogy and Ferroelectricity. His Mineralogy study combines topics from a wide range of disciplines, such as Oxide and Atmospheric temperature range.
The Spark plasma sintering study combines topics in areas such as Powder metallurgy, Grain boundary, Dielectric, Solid-state chemistry and Nanocrystalline material. His research in Sintering tackles topics such as Microstructure which are related to areas like Fracture toughness and Toughness. His Sialon research integrates issues from Phase and Analytical chemistry.
His main research concerns Spark plasma sintering, Sintering, Composite material, Metallurgy and Ceramic. His Spark plasma sintering research incorporates themes from Grain boundary, Fast ion conductor, Mineralogy, Grain growth and Solid-state chemistry. Mats Nygren interconnects Oxide, Silicon carbide, Analytical chemistry, Crystal and Microstructure in the investigation of issues within Sintering.
His Composite material research is multidisciplinary, incorporating elements of Spinel and Dielectric. His Metallurgy research includes themes of Scanning electron microscope and Carbothermic reaction. His Ultra-high-temperature ceramics study, which is part of a larger body of work in Ceramic, is frequently linked to Range, bridging the gap between disciplines.
His scientific interests lie mostly in Composite material, Spark plasma sintering, Sintering, Metallurgy and Ceramic. His Composite material study frequently draws connections between adjacent fields such as Copper. Spark plasma sintering is a subfield of Microstructure that Mats Nygren tackles.
The various areas that Mats Nygren examines in his Sintering study include Flexural strength, Electron mobility, Grain boundary, Silicon carbide and Crystal. His research in Metallurgy intersects with topics in Cracking and Thermal conductivity. His Ceramic research is multidisciplinary, incorporating perspectives in Potassium niobate, Hot isostatic pressing and Doping.
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Spark Plasma Sintering of Alumina
Zhijian Shen;Mats Johnsson;Zhe Zhao;Mats Nygren.
Journal of the American Ceramic Society (2002)
Grain-size effects on the ferroelectric behavior of dense nanocrystalline BaTiO 3 ceramics
Zhe Zhao;Vincenzo Buscaglia;Massimo Viviani;Maria Teresa Buscaglia.
Physical Review B (2004)
Formation of tough interlocking microstructures in silicon nitride ceramics by dynamic ripening
Zhijian Shen;Zhe Zhao;Hong Peng;Mats Nygren.
Structural investigations of new calcium-rare earth (R) oxyborates with the composition Ca4Ro(BO3)3
R. Norrestam;M. Nygren;J. O. Bovin.
Chemistry of Materials (1992)
On the preparation of bio-, nano- and structural ceramics and composites by spark plasma sintering
Mats Nygren;Zhijian Shen.
Solid State Sciences (2003)
Dense single-phase β-sialon ceramics by glass-encapsulated hot isostatic pressing
Thommy Ekström;Per-Olov Käll;Mats Nygren;Per-Olof Olsson.
Journal of Materials Science (1989)
High dielectric constant and frozen macroscopic polarization in dense nanocrystalline BaTiO3 ceramics
Maria Teresa Buscaglia;Massimo Viviani;Vincenzo Buscaglia;Liliana Mitoseriu.
Physical Review B (2006)
Transparent nanocrystalline MgO by rapid and low-temperature spark plasma sintering
Rachman Chaim;Zhijian Shen;Mats Nygren.
Journal of Materials Research (2004)
Spark plasma sintering and mechanical behaviour of ZrC-based composites
Diletta Sciti;Stefano Guicciardi;Mats Nygren.
Scripta Materialia (2008)
Dense Hydroxyapatite–Zirconia Ceramic Composites with High Strength for Biological Applications
Z. J. Shen;E. Adolfsson;M. Nygren;L. Gao.
Advanced Materials (2001)
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