Stein V. Contribution to the characteristic improvement of carbon bonded doloma refractories by addition of functional ceramic materials / Hrsg.: TU Bergakademie Freiberg, der Rektor. - Freiberg: Technische Universität Bergakademie Freiberg, 2011. - 176 p.: ill. - (Freiberger Forschungshefte. A. Silikattechnik; 905). - ISBN 978-3-86012-428-4  Место хранения:   01 | ГПНТБ СО РАН | Новосибирск

Оглавление / Contents

List of Contents ................................................ I List of Figures .............................................. VIII List of Tables ............................................... XVII List of Abbreviations .......................................... XX List of Equations ............................................. XXI 1 Introduction ................................................. 1 2 State of the Art of Doloma Carbon Refractories ............... 4 2.1 Doloma and Doloma Carbon Refractories ................... 4 2.1.1 Dolomite and Doloma .............................. 4 2.1.2 Production of Doloma Based Refractories ......... 10 2.1.3 Application of Doloma based Refractories in Steel Making Practice ........................... 14 2.1.4 Special Properties of Lime (CaO) and Magnesia (MgO) ........................................... 22 2.2 Carbon Polytypes and Carbon Sources of Interest in Doloma Carbon Refractories ............................. 24 2.2.1 Phenolic Resin and Glassy Carbon ................ 25 2.2.2 Graphite ........................................ 29 2.2.3 Carbon Black .................................... 31 2.3 Background on Used Additives and Tasks ................. 32 2.3.1 Titania (TiO2) .................................. 33 2.3.2 Aluminium (Al) .................................. 43 2.3.3 Silicon (Si) .................................... 44 2.3.4 Zirconia (ZrO2) ................................. 46 2.3.5 Ceria (CeO2) .................................... 48 2.3.6 Perovskite (CaTiO3) and Ilmenite (FeTiO3) ....... 49 2.4 Concluded Tasks for the Present Work ................... 50 3 Experimental ................................................ 53 3.1 Raw Materials .......................................... 53 3.1.1 Doloma, Magnesia and Alumina .................... 53 3.1.2 Carbon .......................................... 53 3.1.3 Phenol Novolak Resin ............................ 54 3.1.4 Titania (TiO2) .................................. 55 3.1.5 Aluminium ....................................... 55 3.1.6 Silicon ......................................... 56 3.1.7 Zirconia (ZrO2) ................................. 57 3.1.8 Ceria (CeO2) .................................... 57 3.1.9 Perovskite (CaTiO3) and llmenite (FeTiO3) ....... 58 3.1.10 Lime (CaO) ...................................... 58 3.2 Sample Preparation and Experimental Design ............. 59 3.3 Test Methods ........................................... 63 3.3.1 Physical, Mechanical and Thermomechanical Properties ...................................... 63 3.3.2 Carbon Content and Determination of Carbon Polytypes ....................................... 64 3.3.3 Phase Analysis .................................. 65 3.4 Experimental Investigation of Titanate Formation in the System CaO-MgO-TiO2 ................................ 66 3.5 Experimental Influence of Anatase on the Rheological Properties of Novolak Resin ............................ 67 4 Investigation of Titanate formation in the System CaO-MgO- TiO2 ........................................................ 69 4.1 Background ............................................. 69 4.2 Investigations on the Formation of Titanates in the Binary System CaO-TiO2 ................................. 72 4.2.1 Combination of CaO+TiO2 in the Mole Ratio 1:1 ... 72 4.2.2 Combination of CaO+TiO2 in the Mole Ratio 3:2 ... 73 4.2.3 Combination of CaO+TiO2 in the Mole Ratio 4:3 ... 73 4.3 Investigations on the formation of titanates in the binary system MgO-TiO2 ................................. 74 4.3.1 Combination of MgO+TiO2 in the Mole Ratio 2:1 ... 74 4.3.2 Combination of MgO+TiO2 in the Mole Ratio 1:1 ... 75 4.3.3 Combination of MgO+TiO2 in the Mole Ratio 1:2 ... 76 4.3.3 Combination of MgO+TiO2 in the Mole Ratio 1:2 ... 76 4.4 Investigations on the Stability of MgTiO3 and CaTiO3 ... 76 4.4.1 Stability of CaTiO3 in the Presence of MgO ...... 76 4.4.2 Stability of MgTiO3 in the Presence of CaO ...... 77 4.5 Conclusions on Titanate Formation in the System CaO-MgO-TiO2 ........................................... 78 5 Influence of TiO2 ........................................... 79 5.1 Addition of TiO2 to Doloma Carbon refractories ......... 79 5.1.1 Influence of Anatase on the Mechanical and Physical Properties of Doloma Carbon Refractories .................................... 79 5.1.2 Influence of Rutile on the Mechanical and Physical Properties of Doloma Carbon Refractories .................................... 81 5.1.3 Influence of Anatase on the Refractoriness Under Load ...................................... 82 5.1.4 Influence of TiO2 on the Carbon Content and Carbon Phase Composition ........................ 83 5.1.5 Microstructure and Phase Composition of Doloma Carbon System Containing TiO2 ................... 86 5.2 Influence of TiO2 Addition into Different Oxide-C Systems ................................................ 91 5.2.1 Influence of Anatase on the Mechanical Properties of Different Oxide Carbon Systems .... 91 5.2.2 Influence of Anatase on the Carbon Content and Carbon Phase Composition .................... 92 5.2.3 Microstructure and Phase Composition ............ 94 5.3 Influence of Anatase on the Novolak Resin ............. 101 5.3.1 Influence of Anatase on the Rheological Properties of Novolak Resin .................... 101 5.3.2 Influence of Anatase on the Novolak Carbonisation .................................. 104 5.4 Summary of the TiO2 Addition .......................... 105 6 Influence of Silicon ....................................... 109 6.1 Influence of Silicon on the Properties of Doloma Carbon Refractories ................................... 109 6.1.1 Influence of Silicon on Mechanical and Physical Properties ............................ 109 6.1.2 Influence of silicon on the carbon phase composition of doloma carbon refractories ...... 110 6.1.3 Microstructure and Phase Evolution ............. 112 6.2 Influence of Silicon (Grade 1a) on the Properties of Magnesia Carbon Refractories .......................... 113 6.2.1 Influence of Grade 1a Silicon on Mechanical and Physical Properties ........................ 113 6.2.2 Influence of Silicon Grade 1a on the Carbon Content of Magnesia Carbon Refractories ........ 114 6.2.3 Influence of Silicon Addition on the Microstructure and Phase Composition ........... 115 6.3 Summary of the Silicon Addition ....................... 115 7 Influence of ZrO2 .......................................... 117 7.1 Influence of ZrO2 on Mechanical Properties of Doloma Carbon Refractories ................................... 117 7.2 Influence of ZrO2 on the Carbon Phase Composition ..... 118 7.3 Influence of ZrO2 Addition on the Phase Evolution and Microstructure .................................... 119 7.4 Conclusions on ZrO2 Addition .......................... 121 8 Influence of CeO2 .......................................... 123 8.1 Influence of CeO2 on mechanical properties of doloma carbon refractories ................................... 123 8.2 Influence of CeO2 on the Carbon Phase Composition ..... 124 8.3 Influence of CeO2 Addition on the Phase Evolution and Microstructure .................................... 125 8.4 Conclusions on CeO2 Addition .......................... 126 9 Influence of Perovskite Type Titanates ..................... 127 9.1 Influence of Perovskite (CaTiO3) and Ilmenite (FeTiO3) on Mechanical Properties of Doloma Carbon Refractories .......................................... 127 9.2 Influence of Titanates on the Carbon Content .......... 128 9.3 Influence of Titanate Addition on the Microstructure ........................................ 128 9.4 Conclusions ........................................... 130 10 Influence of Technical Parameters on Product Quality ....... 131 10.1 Influence of Resin Premixing Process .................. 131 10.2 Influence of Mixing Parameters, Grain Size Distribution and Pressing Power ....................... 131 10.3 Influence of Curing Parameters ........................ 134 10.4 Influence of Powder Resin ............................. 135 11 Transfer of the Laboratory Results in the Industrial Scale ...................................................... 136 11.1 Initial Situation ..................................... 136 11.2 Experimental Procedure ................................ 137 11.3 Results and Discussion ................................ 138 11.3.1 Physical and Mechanical Properties ............. 138 11.3.2 Refractoriness Under Load ...................... 139 11.3.1 Relaxation Test ................................ 139 11.3.4 Thermomechanical Properties .................... 140 11.3.5 Phase Composition .............................. 141 11.4 Application of Bricks into an AOD Converter ........... 142 11.5 Summary ............................................... 143 12 Summary and Outlook ........................................ 145 13 List of References ......................................... 149 14 Appendix ................................................... 167