Reece M*
Reece M*
queen mary or national physical or london or essex
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Cited by
Cited by
Effect of porosity and grain size on the microwave dielectric properties of sintered alumina
SJ Penn, NMN Alford, A Templeton, X Wang, M Xu, M Reece, K Schrapel
Journal of the American Ceramic Society 80 (7), 1885-1888, 1997
A Lead‐Free High‐Curie‐Point Ferroelectric Ceramic, CaBi2Nb2O9
H Yan, H Zhang, R Ubic, MJ Reece, J Liu, Z Shen, Z Zhang
Advanced Materials 17 (10), 1261-1265, 2005
Review of flash sintering: materials, mechanisms and modelling
M Yu, S Grasso, R Mckinnon, T Saunders, MJ Reece
Advances in Applied Ceramics 116 (1), 24-60, 2017
Graphene reinforced alumina nano-composites
H Porwal, P Tatarko, S Grasso, J Khaliq, I Dlouhý, MJ Reece
Carbon 64, 359-369, 2013
The contribution of electrical conductivity, dielectric permittivity and domain switching in ferroelectric hysteresis loops
H Yan, F Inam, G Viola, H Ning, H Zhang, Q Jiang, TAO Zeng, Z Gao, ...
Journal of Advanced Dielectrics 1 (01), 107-118, 2011
Review of graphene–ceramic matrix composites
H Porwal, S Grasso, MJ Reece
Advances in Applied Ceramics 112 (8), 443-454, 2013
Processing and properties of high-entropy ultra-high temperature carbides
E Castle, T Csanádi, S Grasso, J Dusza, M Reece
Scientific reports 8 (1), 1-12, 2018
Toughening of zirconia/alumina composites by the addition of graphene platelets
J Liu, H Yan, MJ Reece, K Jiang
Journal of the European Ceramic Society 32 (16), 4185-4193, 2012
Cyclic fatigue crack propagation in alumina under direct tension—compression loading
MJ Reece, F Guiu, MFR Sammur
Journal of the American Ceramic Society 72 (2), 348-352, 1989
Thermal depoling of high Curie point Aurivillius phase ferroelectric ceramics
H Yan, H Zhang, MJ Reece, X Dong
Applied Physics Letters 87 (8), 082911, 2005
Piezoelectric ceramics with super‐high curie points
H Yan, H Ning, Y Kan, P Wang, MJ Reece
Journal of the American Ceramic Society 92 (10), 2270-2275, 2009
Dimethylformamide: an effective dispersant for making ceramic–carbon nanotube composites
F Inam, H Yan, MJ Reece, T Peijs
Nanotechnology 19 (19), 195710, 2008
Sintering behaviour, solid solution formation and characterisation of TaC, HfC and TaC–HfC fabricated by spark plasma sintering
O Cedillos-Barraza, S Grasso, N Al Nasiri, DD Jayaseelan, MJ Reece, ...
Journal of the European Ceramic Society 36 (7), 1539-1548, 2016
Dielectric relaxation, lattice dynamics and polarization mechanisms in Bi0.5Na0.5TiO3-based lead-free ceramics
G Viola, H Ning, X Wei, M Deluca, A Adomkevicius, J Khaliq, ...
Journal of Applied Physics 114 (1), 014107, 2013
The sintering and grain growth behaviour of ceramic–carbon nanotube nanocomposites
F Inam, H Yan, T Peijs, MJ Reece
Composites Science and Technology 70 (6), 947-952, 2010
Flash Spark Plasma Sintering (FSPS) of Pure ZrB2
S Grasso, T Saunders, H Porwal, O Cedillos‐Barraza, DD Jayaseelan, ...
Journal of the American Ceramic Society 97 (8), 2405-2408, 2014
Investigating the highest melting temperature materials: A laser melting study of the TaC-HfC system
O Cedillos-Barraza, D Manara, K Boboridis, T Watkins, S Grasso, ...
Scientific reports 6 (1), 1-11, 2016
Review of high entropy ceramics: design, synthesis, structure and properties
RZ Zhang, MJ Reece
Journal of Materials Chemistry A 7 (39), 22148-22162, 2019
Electrically conductive alumina–carbon nanocomposites prepared by spark plasma sintering
F Inam, H Yan, DD Jayaseelan, T Peijs, MJ Reece
Journal of the European Ceramic Society 30 (2), 153-157, 2010
Physical, mechanical, and structural properties of highly efficient nanostructured n-and p-silicides for practical thermoelectric applications
Y Gelbstein, J Tunbridge, R Dixon, MJ Reece, H Ning, R Gilchrist, ...
Journal of electronic materials 43 (6), 1703-1711, 2014
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