Chapter 1 The Deming procedure After three hundred and sixty five days: One Company's adventure (pages 1–13): H. R. Crick, H. Golczynski and G. G. Vining
Chapter 2 opting for and Controlling Sampling and trying out mistakes in SPC (pages 14–26): P. N. Sheldon and R. A. Landy
Chapter three results of Oxidation?Reduction Reactions in Magnesia?Graphite Compositions (pages 27–39): Yu?Lian Lin and Charles E. Semler
Chapter four Selective Leaching of Extruded Cordierite Honeycomb buildings (pages 40–51): Thomas H. Elmer
Chapter five Zircon Processing (pages 52–57): ok. ok. Cheang
Chapter 6 Refractories for Torpedo autos (pages 58–74): Saburo Miyagawa, Makoto Yokoi, Akira Mastuo, Tadashi Morimoto and Tastuo Kawakami
Chapter 7 Water version scan of the Refractory?Lined Lance to Inject Oxygen right into a Molten Iron tub (pages 75–78): ok. Kurata
Chapter eight research of Silicon Carbide Refractories after carrier in Blast Furnaces (pages 79–99): Donald ok. Henry and Roy W. Brown
Chapter nine improvement and houses of Silicon Carbide Refractories for Blast Furnace Use (pages 100–118): D. Campos?Loriz and Thomas R. Holmes
Chapter 10 growth on Carbon?Bearing Refractories for the BOF (pages 119–130): Yoichi Naruse, Keisuke Hiragushi, Sukekazu Kiwaki and Ichiro Takita
Chapter eleven fresh Technological developments of floor Coating Refractories for CC Tundish Liners (pages 131–144): ok. Watanabe, S. Fujisaki and T. Takeshige
Chapter 12 Nondestructive checking out of Refractories utilizing commercial X?ray Computed Tomography (pages 145–166): Yoshiro Aiba, Oki Kazuo, Arakawa Kazumi and Shigeo Matsuura
Chapter thirteen Observations at the Thermomechanical habit of Refractory Linings of Cylindrical?Type Shells (pages 167–184): Charles A. Schacht
Chapter 14 excessive power Insulation for metal Ladles (pages 185–195): Valerie E. Mccallen
Chapter 15 dimension of houses to be used with Finite point research Modeling (pages 196–208): M. A. Stett
Chapter sixteen better Analytical strategies and fabric houses for Predicting the Thermomechanical habit of Refractory Linings of Teeming Ladles (pages 209–219): Charles A. Schacht
Chapter 17 Compressive energy and Creep habit of a Magnesium Chromite Refractory (pages 220–228): Ralph F. Krause
Chapter 18 Optimizing Corrosion?Resistant Monolithic functionality by utilizing twin Lining structures (pages 229–235): Curtis E. Zimmer
Chapter 19 software of Vibratory Castables in Petrochemical Industries (pages 236–242): Subrata Banerjee
Chapter 20 Microstructural facets of Microsilica?Blended excessive Alumina Castables (pages 243–260): A. Seltveit, G. S. Dhupia and W. Kronert
Chapter 21 the results of Curing Temperature and occasions on Low?Moisture Trough Castables (pages 261–266): Robert A. Howe and John A. Kaniuk
Chapter 22 ANCHOREX Anchoring method (pages 267–268): E. Olsen
Chapter 23 New excessive Chrome Fused forged Refractory to be used in touch with hugely Corrosive Glasses (pages 269–276): T. A. Myles and F. Knee
Chapter 24 impact of Cement uncooked Meal Composition on Lining lifestyles (pages 277–283): T. okay. Das, R. De los angeles Garza and J. C. Davila
Chapter 25 significance of the Modulus of Elasticity on uncomplicated Refractory Brick for Cement Rotary Kilns (pages 284–291): R. de los angeles Garza
Chapter 26 Corrosion of Ceramic Refractories in man made Coal Slags made up our minds via the Rotating?Cylinder approach (page 292): Sherman Greenberg and Roger B. Poeppel
Chapter 27 Monolithic Refractory difficulties in a Gasifier (pages 293–300): G. N. Zirczay
Chapter 28 Corrosion Resistance of Ceramic fabrics to HCl, HNO3, and H2SO4 (pages 301–313): James P. Bennett
Chapter 29 dating of Creep homes of Bauxite Refractories with Microstructure (pages 314–323): Xiangchong Zhong, Gengcheng sunlight and Rushan Yin
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Extra info for Applications of Refractories: Ceramic Engineering and Science Proceedings, Volume 7, Issue 1/2
GAAIN I 80 70 ’ 60 50 L! ’ INTER GRAIN I1 40 - Q A A’ Li 30 . L? 20 . A ‘ FINE GRAIN 10 20 30 40 60 50 70 80 QUALITY INDEX OF DENSE ZONE 90 100 Fig. 10. Decarbonized (oxidized)area vs the quality index for the four differentsize-gradedsample compositionsstudied. It is clearly seen that the higher quality index values correlate with lower carbon loss, and vice-versa, so batch particle sizing is one factor that is important for controlling the oxidation of carbon-containingrefractories. Other factors like temperature, firing time, and atmosphere, likewise have an influentialrole.
67  480-3 (1984). 13B. S. Patent Pending. , Himeji, Japan, Nov. 1983. , Pittsburgh, PA. Alfa Products, Danvers, MA. + Table I. GRAIN 300 200 SPECIFIC SURFACE AREA FINE GRAIN 400 (Sq. 500 Ctn/g) Fig. 5. The lines shown represent a least squares fit of the data. In all cases the quality index increases with decreasing grain size (average) of the samples. - - __--_ _ - - - -_ - _--- - - - - _ - - -_ _ - - 60 MIN ............................ _ _ _ _ _ _ _ . GRAIN COARSE GRAIN 36 FINE M A I N I WEIGHT LOSS ( X I INTER GRAIN I 10 - COARSE GRAIN FINE GRALN- - _ _ _ - -_- - - - INTER GRAIN I1 _ _ - -- _ - - - - 0 goo iaoo 2700 3600 FIRING TIME (seconds) 5400 4500 Fig.
2 B C D E *15% coarse A1,0, was used in preparing this body. Note: All extruded ceramic cordierite monoliths had a wall porosity of 35 to 40%. Monolith C and D contained appreciable mullite phase. Table 11. 5 23 -24 . 9 Table 111. 79 Note: All expansion measurements were made parallel to the direction of extrusion of the monolith. 45 Table IV. 5N HNO, and accompanying weight losses are given in parentheses. Table V. 6 in. 75-in. 6 in. diax3-in. high). Table VI. ) cube specimens. Load applied parallel, perpendicular, and diagonal to the square channels.