Effect of nano-titania (η-TiO2) content on the mechano-physical properties of a magnesia refractory composite
暂无分享,去创建一个
J. Aguilar-Martínez | J. Contreras | E. Rodríguez | R. Puente-Ornelas | J. J. Ruiz-Valdés | F. H. Moreno | A. E. Montes-Mejía
[1] Ya-wei Li,et al. Effect of nanocarbon sources on microstructure and mechanical properties of MgO-C refractories , 2014 .
[2] Yu Tang,et al. Effects of TiO2 nanoparticles addition on microstructure, microhardness and tensile properties of Sn–3.0Ag–0.5Cu–xTiO2 composite solder , 2014 .
[3] Ya-wei Li,et al. Microstructure and mechanical properties of MgOC refractories containing graphite oxide nanosheets (GONs) , 2013 .
[4] Jianguo Yu,et al. Effect of TiO2 on Sintering and Grain Growth Kinetics of MgO from MgCl2·6H2O , 2013, Metallurgical and Materials Transactions B.
[5] T. Troczynski,et al. The effect of nano-Cr2O3 on solid-solution assisted sintering of MgO refractories , 2012 .
[6] V. Pandolfelli,et al. How effective is the addition of nanoscaled particles to alumina–magnesia refractory castables? , 2012 .
[7] C. Aneziris,et al. Nano- and micrometre additions of SiO2, ZrO2 and TiO2 in fine grained alumina refractory ceramics for improved thermal shock performance , 2012 .
[8] C. Aneziris,et al. Improved thermal shock performance of Al2O3–C refractories due to nanoscaled additives , 2012 .
[9] M. Rahmani,et al. The Effect of Nano-TiO2 Addition on the Properties of Mullite- Zirconia Composites Prepared by Slip Casting , 2012 .
[10] A. Golubović,et al. The growth of Mg2TiO4 single crystals using a four-mirror furnace , 2011 .
[11] Ina Pundiene,et al. A review of the possible applications of nanotechnology in refractory concrete , 2010 .
[12] S. Zanganeh,et al. Influence of nano boehmite on solid state reaction of alumina and magnesia , 2010 .
[13] D. Kuznetsov,et al. Nanomaterials in refractory technology , 2010 .
[14] P. Manivasakan,et al. Effect of TiO2 Nanoparticles on Properties of Silica Refractory , 2010 .
[15] S. Y. Chang,et al. Effects of Nano-TiO2 additions on thermal analysis, microstructure and tensile properties of Sn3.5Ag0.25Cu solder , 2010 .
[16] F. Golestani-Fard,et al. Effect of nano iron oxide as an additive on phase and microstructural evolution of Mag-Chrome refractory matrix , 2009 .
[17] Y. Kalpaklı. Investigation of TiO2-added refractory brick properties from calcined magnesite raw material , 2008 .
[18] G. Kale,et al. Hydrothermal Synthesis and Characterization of Nano‐TiO2 , 2008 .
[19] Ping Liu,et al. Effect of SiC Nanoparticle Additions on Microstructure and Microhardness of Sn-Ag-Cu Solder Alloy , 2008 .
[20] C. Aneziris,et al. Functional Refractory Material Design for Advanced Thermal Shock Performance Due to Titania Additions , 2007 .
[21] Y. Li,et al. Sintering of MgO-based refractories with added WO3 , 2007 .
[22] 波連 孝一,et al. Improvement of thermal spalling resistance of alumina-graphite materials by Nano-technology , 2007 .
[23] Min Chen,et al. Improvement in performance of MgO–CaO refractories by addition of nano-sized ZrO2 , 2007 .
[24] V. Petrović. Sintering Kinetics of MgO-TiO2 Systems , 2006 .
[25] V. Petrović. Sintering kinetics of MgCO3-TiO2 systems , 2006 .
[26] E. Gueguen,et al. Effect of TiO2 Additions on the Densification of MgO and MgO-CaO Mixtures , 2004 .
[27] A. Othman. Effect of talc and bauxite on sintering, microstructure, and refractory properties of Egyptian dolomitic magnesite , 2003 .
[28] Y. E. Pivinskii,et al. Nanoparticles and Their Effective Use in the Technology of Highly Concentrated Binding Suspensions (HCBS) and Refractory Castables. Part 2 , 2003 .
[29] Y. E. Pivinskii,et al. Nanoparticles and Their Effective Use in the Technology of Highly Concentrated Binding Suspensions (HCBS) and Refractory Castables. Part 1 , 2003 .
[30] T. Nasu,et al. Structure Changes during Amorphization of Ge-Se Alloys by Mechanical Milling , 2003 .
[31] G. Banerjee,et al. Secondary phases in natural magnesite sintered with addition of titania, ilmenite and zirconia , 1999 .
[32] R. Hazen,et al. Effects of cation substitution and order-disorder on P-V-T equations of state of cubic spinels , 1999 .
[33] L. B. Khoroshavin,et al. On the nanotechnology of refractories , 1999 .
[34] R. Guo,et al. Growth and Properties of CaTiO3 Single Crystal Fibers , 1998 .
[35] Y. B. Lee,et al. Sintering and microstructure development in the system MgO–TiO2 , 1998 .
[36] N. Petric,et al. Effect of TiO2, SiO2 and Al2O3 on properties of sintered magnesium oxide from sea water , 1996 .
[37] N. Pitak,et al. Certain properties of MgO-Cr2O3-TiO2 compositions , 1984 .
[38] I. Cutler,et al. Effect of Oxide Additions on Sintering of Magnesia , 1958 .