LEADER 05545nam 2200709 a 450 001 996212921303316 005 20230617034218.0 010 $a1-280-67453-9 010 $a9786613651464 010 $a1-118-40594-3 010 $a1-118-40596-X 035 $a(CKB)2670000000175165 035 $a(EBL)892305 035 $a(SSID)ssj0000631707 035 $a(PQKBManifestationID)11941464 035 $a(PQKBTitleCode)TC0000631707 035 $a(PQKBWorkID)10599768 035 $a(PQKB)11599450 035 $a(MiAaPQ)EBC892305 035 $a(OCoLC)606956051 035 $a(EXLCZ)992670000000175165 100 $a20040901d2004 uy 0 101 0 $aeng 135 $aur|n|---||||| 181 $ctxt 182 $cc 183 $acr 200 10$aAdvances in fusion and processing of glass III$b[electronic resource] $eproceedings of the 7th International Conference on Advances in Fusion and Processing of Glass, July 27-31, 2003 in Rochester, New York /$fedited by James R. Varner, Thomas P. Seward III, Helmut A. Schaeffer 210 $aWesterville, Ohio $cAmerican Ceramic Society$dc2004 215 $a1 online resource (498 p.) 225 1 $aCeramic transactions,$x1042-1122 ;$vv. 141 300 $aDescription based upon print version of record. 311 $a1-57498-156-0 320 $aIncludes bibliographical references and index. 327 $aAdvances in Fusion and Processing of Glass III; In Memoriam; Contents; Preface; Acknowledgements; Advances in the Glass Melting Process; Analysis of Advanced and Fast Fining Processes for Glass Melts; The Glass Melting Process-Treated as a Cyclic Process of an Imperfect Heat Exchanger; Electromagnetic Induction Heating in Molten Glass at 60 Hz with No Susceptors; Full Oxy Conversion of a Float Furnace Equipped with Separated Jets ALGLASS FC Burners: From OD Model to 3D Characterization; A Method for Making Arsenic Oxide in Cullet More Active as a Fining Agent 327 $aRedox and Foaming Behavior of E-Glass MeltsComparison of Measured and Calculated Gas Release by Fining Agents; Bubble Continuum Model; Selective Batching for Improved Commercial Glass Melting; Observation and Analysis of Dissolution Kinetics, Supported by Microscopy; Characterization of Glass Melts/Glass Melt Properties; Inert Gas Solubility in Glasses and Melts of Commercial Compositions; Water Diffusion and Solubility in Glasses and Melts of Float, Container, and Other Commercial Compositions; The Effects of Vanadium Additions on the Surface Tension of Soda Lime Silicate Melts 327 $aModeling of Glass Making Processes for Improved Efficiency: High Temperature Glass Melt Property Database for ModelingMaterials for Glassmaking; Analytical Models for High-Temperature Corrosion of Silica Refractories in Glass-Melting Furnaces; How the Properties of Glass Melts Influence the Dissolution of Refractory Materials; Evaluation of Crown Refractories Under Oxyfuel Environment; Kinetics and Mechanisms of Niobium Corrosion in Molten Glasses; Glass Tank Reinforcements; Glass Composition Dependence of Metal Corrosion by Molten Glasses 327 $aCorrosion of Superalloys in Molten Glass-Electrochemical Characterization of the Passive StateElectrochemical Study of Cobalt-Base Superalloy Corrosion by a Molten Glass: Influence of Alloy Microstructure and Chemical Composition of the Glass; Glass-Silicide Coverings; Advances in Glass Forming; Mechanical Strength Increase During the Forming Process of Glass; Optimization of the Heat Transfer During Forming of Glass; Effect of Mold to Glass Heat Transfer on Glass Container Forming; Investigations on Sticking Temperature and Wear of Mold Materials and Coatings 327 $aBasic Considerations and Technical Aspects Concerning Glass ConditioningPolyvalent Elements and Redox Behavior; Redox-Dependent Glass Properties and Their Control Under Industrial Conditions; Using Additives for Color Control in Copper-Containing Glasses; Decolorization of Amber Glass; Redox Couples in Glass-A Series of New Data; Electrochemical Study in Molten Glasses of the Multivalent Systems of Nickel; Effects of Composition and Forming on Structure and Properties; Effect of Water in the Melting Atmosphere on the Transformation Temperature of Commercial Glasses 327 $aDependence Between the Color of Titanium Crystal Glasses and the Optical Basicity 330 $aGlass continues to be a material of great scientific and technological interest; however, the economic pressures on the glass industry, the emphasis on global markets, and the worldwide attention to energy and environmental conservation continue to increase. Forty-seven papers offer new solutions to the challenges of glass manufacturing, particularly as they pertain to melting and forming. 410 0$aCeramic transactions ;$vv. 141. 606 $aGlass melting$vCongresses 606 $aGlass fusing$vCongresses 606 $aGlass$xBonding$vCongresses 615 0$aGlass melting 615 0$aGlass fusing 615 0$aGlass$xBonding 676 $a666.1042 676 $a666.12 676 $a666/.12 701 $aVarner$b James R$0977305 701 $aSeward$b Thomas P$0977306 701 $aSchaeffer$b Helmut A$0977307 712 12$aInternational Conference on Advances in Fusion and Processing of Glass 801 0$bMiAaPQ 801 1$bMiAaPQ 801 2$bMiAaPQ 906 $aBOOK 912 $a996212921303316 996 $aAdvances in fusion and processing of glass III$92226352 997 $aUNISA LEADER 01255nam0 22003013i 450 001 VAN00097649 005 20241112103624.495 010 $a978-88-602-1112-5 100 $a20140418d2007 |0itac50 ba 101 $aita 102 $aIT 105 $a|||| ||||| 200 1 $aˆLa ‰nuova legge fallimentare$ecommento e confronto tra testo nuovo e previgente$fa cura di Franco Benassi ... 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