LEADER 05337nam  2200709Ia 450 
001 9911020221103321
005 20200520144314.0
010   $a9786612308147
010   $a9781282308145
010   $a1282308149
010   $a9780470145333
010   $a0470145331
010   $a9780470145548
010   $a0470145544
035   $a(CKB)1000000000376315
035   $a(EBL)468914
035   $a(SSID)ssj0000299745
035   $a(PQKBManifestationID)11253236
035   $a(PQKBTitleCode)TC0000299745
035   $a(PQKBWorkID)10242714
035   $a(PQKB)10642387
035   $a(MiAaPQ)EBC468914
035   $a(OCoLC)181190003
035   $a(Perlego)2762183
035   $a(EXLCZ)991000000000376315
100   $a19990427d1999      uy         0
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aFormation of ceramics /$ffounding editor, J.J. Zuckerman; editor, Jim D. Atwood
210   $aNew York $cWiley-VCH$dc1999
215   $a1 online resource (499 p.)
225 0 $aInorganic reactions and methods ;$vv. 18
300   $aDescription based upon print version of record.
311 08$a9780471192022 
311 08$a0471192023 
320   $aIncludes bibliographical references and indexes.
327   $aInorganic Reactions and Methods; Contents; How to Use this Book; Preface to the Series; Editorial Consultants to the Series; Contributors to Volume 18; The Formation of Ceramics; Introduction; Ceramic Preparative Methods; Introduction; Preparation of Powders for Ceramic Processing; Purity, Particle Size Uniformity and Small Particle Size; Comminution Techniques; Solution Preparation; Coprecipitation; Sol Gel.; Freeze-Drying; Solvent Evaporation.; Vapor Phase Techniques; Reactions in the Vapor Phase.; Vapor Decomposition.; Direct Vaporization Condensation.; Thermal Decomposition
327   $aDensification of Ceramic PowdersIntroduction; Forming; Pressing of Dry or Semi-Dry Powders.; Casting of Concentrated Suspensions.; (i)Slip Casting.; (ii) Tape Casting.; Plastic Deformation of Powder Mixtures.; (i) Extrusion; (ii) Injection Molding.; Drying; Physical Principles of Drying.; Drying Defects.; Binder Removal; The Process of Thermal Debinding.; Models for Thermal Debinding.; Firing; Principles of Solid State Sintering.; Experimental Observations of Solid-state Sintering.; Pressure Sintering.; Liquid-Phase Sintering.; Crystal Growth from Melts and Solutions; Growth from Melts
327   $aPulling from the Melt.(i) Dislocations.; (ii) Facets; (iii) Striations.; (iv) Nonstoichiometry.; Directional Solidification.; Controlled Heat Removal.; Float Zone Growth.; Flame Fusion Method.; Skull Melting.; Shaped Crystal Growth.; Fiber Growth.; Arc-Fusion Method.; Growth from High-Melting Solutions; Slow Cooling.; Solvent Evaporation.; Solute Transport in a Temperature Gradient.; Traveling Solvent Zone Methods.; Flux Reaction Techniques1.; Electrocrystallization; Liquid-Phase Epitaxy (LPE).; Hydrothermal Synthesis of Ceramics; Growth from Other Solutions; Chemical Vapor Deposition
327   $aFundamentalsThermodynamics.; Kinetics and Transport Considerations.; Film Growth and Morphology.; Reaction Pathways; Pyrolysis; Oxidation/Hydrolysis; Reduction.; Carbidization/Nitridation; Disproportionation; Plasma CVD (PCVD); Non-Conventional CVD Techniques; Laser/Photo CVD.; Hot Filament CVD.; Ion Beam CVD.; Aerosol CVD.; Technologically Significant Ceramics via CVD; Silicon Dioxide.; Aluminium Oxide.; Silicon Nitride.; Titanium Dioxide.; Titanium Nitride.; Boron Nitride.; Aluminum Nitride.; Silicon Carbide.; Metal Oxides and High Tc Superconductors.; Doping; Doping from Solids
327   $aGroup I Dopants.Group II Dopants.; Group Ill Dopants.; Group V Dopants.; Group VI Dopants.; Doping from Liquids; Directly Applied Liquid Sources; Liquid Sources for Open-Tube Diffusion.; Doping from the Vapor; Ion Implantation; Gas Flow or Liquid Vapor.; External Thermal Oven.; Sputtering, Electron Bombardment, Oxide-Chloride Conversion.; Neutron Transmutation Doping; The Synthesis and Fabrication of Ceramic for Special Application; Introduction; Preparation of Glasses for Special Applications; Bonding, Kinetic, and Other Factors that Favor Glass Formation; Glass Formation.; Glass Structure.
327   $aComposition of Glasses.
330   $aBoasting numerous industrial applications, inorganic chemistry forms the basis for research into new materials and bioinorganic compounds such as calcium that act as biological catalysts. Now complete, this highly acclaimed series presents current knowledge in all areas of inorganic chemistry, including chemistry of the elements; organometallic, polymeric and solid-state materials; and compounds relevant to bioinorganic chemistry.
410  0$aZuckerman: Inorganic Reactions and Methods
606   $aCeramics
606   $aChemistry, Technical
615  0$aCeramics.
615  0$aChemistry, Technical.
676   $a541.3/9
676   $a541.39
701   $aZuckerman$b J. J$g(Jerold J.),$f1936-1987.$0857123
701   $aAtwood$b Jim D.$f1940-$01838295
801  0$bMiAaPQ
801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9911020221103321
996   $aFormation of ceramics$94417596
997   $aUNINA