Tuning the combustion process during reactive sintering of high-performance ceramics by employing solid solutions as reactants

[1]  Yu Zhou,et al.  Reactive sintering behavior and enhanced densification of (Ti,Zr)B2–(Zr,Ti)C composites , 2020 .

[2]  J. Zou,et al.  In-situ ZrB2- hBN ceramics with high strength and low elasticity , 2020 .

[3]  J. Zou,et al.  Nanoceramic composites with duplex microstructure break the strength-toughness tradeoff , 2020 .

[4]  Jiamao Li,et al.  Effects of TiC particle size on microstructures and mechanical properties of B4C–TiB2 composites prepared by reactive hot-press sintering of TiC–B mixtures , 2020, Ceramics International.

[5]  I. Hussainova,et al.  Microwave synthesis of B4C nanopowder for subsequent spark plasma sintering , 2019, Journal of Materials Research and Technology.

[6]  T. Wen,et al.  High-entropy alumino-silicides: a novel class of high-entropy ceramics , 2019, Science China Materials.

[7]  Zhihua Yang,et al.  Preparation and anisotropic properties of textured structural ceramics: A review , 2019, Journal of Advanced Ceramics.

[8]  Xing-dong Yuan,et al.  Electron energy loss spectroscopy analysis for cubic boron nitride single crystals transition mechanism in Li3N-BN system , 2019, Materials Letters.

[9]  J. Zou,et al.  Key issues on the reactive sintering of ZrB2 ceramics from elementary raw materials , 2019, Scripta Materialia.

[10]  F. Peng,et al.  Microstructure evolution, densification behavior and mechanical properties of nano-HfB2 sintered under high pressure , 2019, Ceramics International.

[11]  Guanghua Liu,et al.  Combustion synthesis: An effective tool for preparing inorganic materials , 2018, Scripta Materialia.

[12]  D. Sciti,et al.  Hard and easy sinterable B4C-TiB2-based composites doped with WC , 2018, Journal of the European Ceramic Society.

[13]  N. Hyatt,et al.  Reactive spark plasma synthesis of CaZrTi2O7 zirconolite ceramics for plutonium disposition , 2018 .

[14]  G. Hilmas,et al.  Titanium diboride–silicon carbide–boron carbide ceramics with super‐high hardness and strength , 2018 .

[15]  E. Levashov,et al.  Self-propagating high-temperature synthesis of advanced materials and coatings , 2017 .

[16]  W. Goddard,et al.  Superstrength through Nanotwinning. , 2016, Nano letters.

[17]  Zhijian Shen,et al.  Ultra-low temperature reactive spark plasma sintering of ZrB2-hBN ceramics , 2016 .

[18]  B. Gil,et al.  Temperature dependence of Raman-active phonons and anharmonic interactions in layered hexagonal BN , 2016 .

[19]  D. Sciti,et al.  Bulk monolithic zirconium and tantalum diborides by reactive and non-reactive spark plasma sintering , 2016 .

[20]  Guo‐Jun Zhang,et al.  Three-step reactive hot pressing of B4C–ZrB2 ceramics , 2016 .

[21]  W. Goddard,et al.  Atomic-Level Understanding of "Asymmetric Twins" in Boron Carbide. , 2015, Physical review letters.

[22]  R. Orrú,et al.  Influence of the heating rate on the in situ synthesis and consolidation of ZrB2 by reactive Spark Plasma Sintering , 2015 .

[23]  Qing Huang,et al.  Fast synthesis of B4C-TiB2 composite powders by pulsed electric current heating TiC-B mixture , 2015 .

[24]  J. Vleugels,et al.  A top-down approach to densify ZrB2–SiC–BN composites with deeper homogeneity and improved reliability , 2014 .

[25]  J. Vleugels,et al.  Hexagonal BN-encapsulated ZrB2 particle by nitride boronizing , 2014 .

[26]  Jungang Hou,et al.  Structural and Thermodynamics Properties of TiC1−xNx–TiO1−xNx Solid Solutions: X‐ray Diffraction and First‐Principles Approaches , 2014 .

[27]  Y. Bando,et al.  Nano boron nitride flatland. , 2014, Chemical Society reviews.

[28]  Y. Sakka,et al.  Nanocrystalline ZrB2 powders prepared by mechanical alloying , 2013 .

[29]  K. Vanmeensel,et al.  Spark Plasma Sintering of Superhard B4C–ZrB2 Ceramics by Carbide Boronizing , 2013 .

[30]  Y. Le Godec,et al.  Creation of Nanostuctures by Extreme Conditions: High‐Pressure Synthesis of Ultrahard Nanocrystalline Cubic Boron Nitride , 2012, Advanced materials.

[31]  M. Herrmann,et al.  Interaction of titanium diboride/boron nitride evaporation boats with aluminium , 2011 .

[32]  Yu Zhou,et al.  Effect of TiB2 content on microstructure and mechanical properties of in-situ fabricated TiB2/B4C composites , 2011 .

[33]  K. Vanmeensel,et al.  Microstructure and mechanical properties of pulsed electric current sintered B4C-TiB2 composites , 2011 .

[34]  Daisuke Shindo,et al.  Charging Effects on SEM/SIM Contrast of Metal/Insulator System in Various Metallic Coating Conditions , 2010 .

[35]  J. Vleugels,et al.  Pulsed electric current, in situ synthesis and sintering of textured TiB2 ceramics , 2010 .

[36]  Q. Jiang,et al.  Al content dependence of reaction behaviors and mechanism in combustion synthesis of TiB2–AlN-based composites , 2009 .

[37]  Guo‐Jun Zhang,et al.  Reactive Hot Pressing of ZrB2–SiC–ZrC Composites at 1600°C , 2008 .

[38]  M. Nygren,et al.  Homogeneous TiB2 Ceramics Achieved by Electric Current‐Assisted Self‐Propagating Reaction Sintering , 2007 .

[39]  M. Rahaman Sintering of Ceramics , 2007 .

[40]  Lianjun Wang,et al.  Rapid fabrication of Ti3SiC2–SiC nanocomposite using the spark plasma sintering-reactive synthesis (SPS-RS) method , 2007 .

[41]  G. Hilmas,et al.  Fabrication and properties of reactively hot pressed ZrB2–SiC ceramics , 2007 .

[42]  G. Hilmas,et al.  Low-Temperature Densification of Zirconium Diboride Ceramics by Reactive Hot Pressing , 2006 .

[43]  A. K. Suri,et al.  Processing and properties of monolithic TiB2 based materials , 2006 .

[44]  Guo‐Jun Zhang,et al.  Reactive hot pressing of ZrB2-SiC-ZrC ultra high-temperature ceramics at 1800°C , 2006 .

[45]  W. Fahrenholtz Reactive Processing in Ceramic-Based Systems , 2006 .

[46]  K. Vanmeensel,et al.  Modelling of the temperature distribution during field assisted sintering , 2005 .

[47]  Z. A. Munir,et al.  Influence of synthesis temperature on the defect structure of boron carbide: Experimental and modeling studies , 2005 .

[48]  J. Vleugels,et al.  Development and characterisation of SiAlON composites with TiB2, TiN, TiC and TiCN , 2004 .

[49]  K. Ashbee Defects in boron carbide before and after neutron irradiation , 1971 .