Microstructural evolution and properties enhancement of SiC refractory castables bonded with the special CNFs/calcium aluminate cement
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[1] Yuhang Bai,et al. Oxidation protection of CrSi2-HfB2-SiC/SiC coating for graphite in variable-temperature environment , 2022, Corrosion Science.
[2] Guoqing Xiao,et al. One-step synthesis of core–shell structured CNFs@CAC with excellent water wettability and oxidation resistance , 2022, Applied Surface Science.
[3] Haijun Zhang,et al. Catalytic preparation of carbon nanotube/SiC whisker bonded low carbon MgO–C refractories and their high-temperature mechanical properties , 2021, Ceramics International.
[4] Haijun Zhang,et al. Effects of different catalysts on performance of self-bonded SiC refractories , 2021 .
[5] Shaowei Zhang,et al. Effect of firing atmosphere on the microstructure and properties of Al2O3–SiC–C castables , 2021 .
[6] X. Hou,et al. Effect and mechanism of nano-Ca10(PO4)6(OH)2 additive on compressive strength of calcium aluminate cement at high temperature , 2021, Journal of Iron and Steel Research International.
[7] Shaowei Zhang,et al. Mechanical properties of refractory castables bonded with hydratable magnesium carboxylate-boric acid , 2021 .
[8] Guoqing Xiao,et al. One step synthesis and characterization of high aspect ratio network-like carbon nanotubes containing calcium aluminate cement composite powders , 2021 .
[9] X. Hou,et al. Characterization and mechanism of early hydration of calcium aluminate cement with anatase-TiO2 nanospheres additive , 2020 .
[10] Shujing Li,et al. Microstructural evolution of carbon fibers by silicon vapor deposition and its effect on mullite-corundum castables , 2020 .
[11] Guoqing Xiao,et al. Thermal shock resistance properties of refractory castables bonded with a CaO-free binder , 2020 .
[12] H. Gu,et al. Improvements of properties of alumina-silica refractory castables by alumina-coated aluminum powders , 2020 .
[13] E. Storti,et al. Alumina castables with addition of fibers produced by electrospinning , 2020 .
[14] V. Pandolfelli,et al. Anti-spalling fibers for refractory castables: A potential application for recycling drinking straws , 2020, Ceramics International.
[15] H. Biermann,et al. Recycling of carbon fiber composites in carbon-bonded alumina refractories , 2020 .
[16] R. Nowak,et al. Design of refractory SiC/ZrSi2 composites: Wettability and spreading behavior of liquid Si-10Zr alloy in contact with SiC at high temperatures , 2020 .
[17] Xiaofeng Xu,et al. Investigation of fracture behavior of cement-bonded corundum castables using wedge splitting test and digital image correlation method , 2020 .
[18] A. R. Ruslinda,et al. Synthesis of silicon carbide nanomaterials by microwave heating: Effect of types of carbon nanotubes , 2019 .
[19] A. Nemati,et al. SiC fines effects on the microstructure and properties of bauxite-based low-cement refractory castables , 2019, Ceramics International.
[20] Weiyou Yang,et al. One-dimensional SiC nanostructures: Designed growth, properties, and applications , 2019, Progress in Materials Science.
[21] H. Gu,et al. Effect of Ti combined with Si and C on mechanical performance and oxidation resistance of SiC castables for plasma gasifier , 2019, Ceramics International.
[22] Haijun Zhang,et al. Nickel-catalyzed preparation of self-bonded SiC refractories with improved microstructure and properties , 2018, Journal of the European Ceramic Society.
[23] Haijun Zhang,et al. High-yield production of large aspect ratio carbon nanotubes via catalytic pyrolysis of cheap coal tar pitch , 2018 .
[24] D. Jia,et al. Synergic effects of nano carbon sources on thermal shock resistance of Al2O3-C refractories , 2017 .
[25] K. Chou,et al. Comparison of the Reaction Behavior of Hexagonal Silicon Carbide Powder in Different Atmospheres , 2017, Metallurgical and Materials Transactions A.
[26] H. Gu,et al. Towards chrome-free of high-temperature solid waste gasifier through in-situ SiC whisker enhanced silica sol bonded SiC castable , 2017 .
[27] G. C. Ribeiro,et al. Thermal shock resistance of a refractory castable containing andalusite aggregate , 2016 .
[28] M. Fang,et al. Solid particle erosion-wear behavior of SiC–Si3N4 composite ceramic at elevated temperature , 2014 .
[29] Xuguang Liu,et al. Preparation and characterization of SiC@CNT coaxial nanocables using CNTs as a template , 2014 .
[30] K. Sobolev,et al. Role of cement content on the properties of self-flowing Al2O3 refractory castables , 2014 .
[31] V. Pandolfelli,et al. Extension of Hasselman's thermal shock theory for crack/microstructure interactions in refractories , 2012 .
[32] H. Harmuth. Characterisation of the Fracture Path in ‘Flexible’ Refractories , 2010 .
[33] Yugang Sun,et al. Simple Catalyst-Free Method to the Synthesis of β-SiC Nanowires and Their Field Emission Properties , 2009 .
[34] D. Hasselman,et al. Unified Theory of Thermal Shock Fracture Initiation and Crack Propagation in Brittle Ceramics , 1969 .
[35] C. Leonelli,et al. Assessment of viscoelastic crack bridging toughening in refractory materials , 2008 .
[36] C. Leonelli,et al. Determination of thermal shock resistance in refractory materials by ultrasonic pulse velocity measurement , 2007 .