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MARC Lista (tabellare)
Festgkeitsberechnung Verfahrenstechnischer Apparate [[electronic resource] /] / Eberhard Wegener
Festgkeitsberechnung Verfahrenstechnischer Apparate [[electronic resource] /] / Eberhard Wegener
Autore Wegener Eberhard
Pubbl/distr/stampa Weinheim, : Wiley-VCH, c2002
Descrizione fisica 1 online resource (640 p.)
Soggetto topico Chemistry, Technical
Chemical process control
ISBN 1-282-68526-0
9786612685262
3-527-62228-4
3-527-62560-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione ger
Nota di contenuto Festigkeitsberechnung Verfahrenstechnischer Apparate; Inhaltsverzeichnis; Vorwort; Formelzeichen und Einheiten nach dem AD-Regelwerk; 1 Einführende Bemerkungen; 2 Gundlegende Vorschriften und Nachweise; 2.1 Vorschriften; 2.2 Nachweise; 3 Ermittlung von Berechnungswerten; 3.1 Allgemeines; 3.2 Grundlagen; 3.2.1 Berechnungsdruck; 3.2.2 Berechnungstemperatur; 3.2.3 Festigkeitskennwert; 3.2.4 Sicherheitsbeiwert; 3.2.5 Berücksichtigung der Ausnutzung der zulässigen Berechnungsspannung in Fügeverbindungen oder zur Berücksichtigung von Verschwächungen
3.2.6 Zuschlag zur Berücksichtigung der Wanddickenunterschreitung c(1)3.2.7 Abnutzungszuschlag c(2); 3.3 Beispiele; 4 Methodische Übersicht; 5 Berechnung zylindrischer Wandungen; 5.1 Grundlagen; 5.2 Zylindrische Wandungen unter innerem Überdruck ohne Ausschnitte, Beispiele; 5.3 Zylindrische Wandungen unter innerem Überdruck mit Ausschnitten, Hinweise und Beispiele; 5.4 Zylindrische Wandungen unter äußerem Überdruck ohne Ausschnitte sowie unter innerem und äußerem Überdruck, Hinweise und Beispiele
5.5 Zylindrische Wandungen unter äußerem Überdruck mit Ausschnitten sowie unter innerem und äußerem Überdruck, Hinweise und Beispiele6 Berechnung gewölbter Böden; 6.1 Grundlagen; 6.2 Gewölbte Böden unter innerem Überdruck ohne Ausschnitte, Hinweise und Beispiele; 6.3 Gewölbte Böden unter innerem Überdruck mit Ausschnitten, Hinweise und Beispiele; 6.4 Gewölbte Böden unter äußerem Überdruck sowie unter innerem und äußerem Überdruck, Hinweise und Beispiele; 7 Berechnung kegelförmiger Mäntel; 7.1 Grundlagen; 7.2 Kegelförmige Mäntel unter innerem Überdruck ohne Ausschnitte, Hinweise und Beispiele
7.3 Kegelförmige Mäntel unter innerem Überdruck mit Ausschnitten, Hinweise und Beispiele7.4 Kegelförmige Mäntel unter äußerem Überdruck sowie unter innerem und äußerem Überdruck, Hinweise und Beispiele; 8 Berechnung von Tellerböden; 8.1 Grundlagen; 8.2 Tellerböden unter innerem Überdruck ohne Ausschnitte; 8.2.1 Tellerböden mit gleicher Wanddicke in der Kugelschale und im Flansch; 8.2.2 Tellerböden mit losen Flanschen; 8.2.3 Tellerböden mit verstärktem Flansch; 8.3 Tellerböden mit Ausschnitten; 8.4 Tellerböden unter äußerem Überdruck; 9 Berechnung von Flanschverbindungen; 9.1 Grundlagen
9.2 Schraubenkräfte und Schraubendurchmesser9.3 Berechnung von Flanschen; 9.3.1 Allgemeines; 9.3.2 Vorschweißflansche mit konischem Ansatz; 9.3.3 Vorschweißbunde mit konischem Ansatz; 9.3.4 Aufschweißflansche; 9.3.5 Aufschweißbunde; 9.3.6 Losflansche; 9.4 Flanschblattneigung; 9.5 Sonderformen von Flanschen; 9.5.1 Nach innen liegende Aufschweißflansche; 9.5.2 Flansche mit Klappschrauben; 9.5.3 Flansche mit durchgehender Dichtung; 9.5.4 Geteilte Losflansche; 9.5.5 Losflansche mit geteiltem Einlegering; 9.5.6 Geschraubte Flansche; 9.5.7 Rechteckflansche; 9.5.8 Ovale Flansche
9.5.9 Flansche mit O-Ring-Dichtung
Record Nr. UNINA-9910841112003321
Wegener Eberhard  
Weinheim, : Wiley-VCH, c2002
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Foldamers [[electronic resource] ] : structure, properties, and applications / / edited by Stefan Hecht and Ivan Huc ; foreword by François Diederich
Foldamers [[electronic resource] ] : structure, properties, and applications / / edited by Stefan Hecht and Ivan Huc ; foreword by François Diederich
Pubbl/distr/stampa Weinheim, : Wiley-VCH, c2007
Descrizione fisica 1 online resource (459 p.)
Disciplina 541
547.7
Altri autori (Persone) HechtStefan <1974->
HucIvan
Soggetto topico Chemistry, Technical
Molecules - Models
Oligomers
Soggetto genere / forma Electronic books.
ISBN 1-281-08796-3
1-282-11841-2
9786612118418
9786611087968
3-527-61147-9
3-527-61148-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foldamers; Foreword; Contents; Preface; List of Contributors; Part 1 Structure: Foldamer Design Concepts; 1 Foldamers Based on Local Conformational Preferences; 1.1 Introduction; 1.2 Rigidly Locked Molecules; 1.3 Predictable Foldamers; 1.3.1 Local Conformational Control; 1.3.2 Folded Conformations of π-conjugated Systems; 1.3.2.1 Crescents and Helices; 1.3.2.2 Linear Strands; 1.3.2.3 Macrocycles; 1.3.3 Partially π-conjugated Oligomers; 1.4 Semi-rigid Backbones; 1.4.1 Tertiary Aromatic Amides, Imides and Ureas; 1.4.2 Tertiary Aliphatic Amides: Polyprolines and Peptoids
1.4.3 Hindered Polymer and Oligomer Backbones1.5 Conformational Transitions; 1.6 Conclusion and Perspectives; References; 2 Foldamers Based on Remote Intrastrand Interactions; 2.1 Introduction; 2.2 What can be Learned from Strategies used to Control Conformations of α-Polypeptides?; 2.3 Helices from Homogeneous Oligomeric Backbones with Periodicity at the Monomer Level: ω-Peptides and their Analogs; 2.3.1 Compact Helices with Large (>10 atoms) H-bonded Rings; 2.3.1.1 The Homologation Strategy: β- and γ-Peptide Foldamers
2.3.1.2 Imposing Backbone Conformational Restriction/Pre-organization for Optimal Helical Folding2.3.1.3 Folding in an Aqueous Environment; 2.3.1.4 Dynamics of β- and γ-Peptide Helices: Evidence for Noncooperative Folding/Unfolding Processes; 2.3.2 Extended Helices with Small H-bonded Rings Centered at a Single Residue; 2.3.2.1 α-Peptides: the γ-Helix; 2.3.2.2 ω-Peptides with Specific Conformation-stabilizing Elements; 2.3.2.3 Stabilizing Local Backbone Conformation by Inverse-Bifurcation Involving an Additional Heteroatom; 2.4 Oligoamide Mixed Helices
2.4.1 The α-Oligopeptide Precedent: from Antibiotic Gramicidin A to Poly-Gln Aggregates in Huntington's Disease2.4.2 Introducing Periodicity at the Level of a Dimer Unit in β-Peptides leads to a Remarkably Stable Mixed Helical Fold; 2.4.2.1 By Mixing β(2)- and β(3)-Amino Acids; 2.4.2.2 Additional Substitution Patterns Stabilizing the Mixed 10/12- (12/10-) Helix; 2.4.3 Extending the Concept of Mixed Helices; 2.5 Nonperiodic Structures: Open Chain β-Turn-like Motifs and Hairpins in Designed Homo-oligomers; 2.5.1 Sheet-forming ω-peptides; 2.5.2 Turn Segment for Hairpin Formation
2.6 Expanding Structural Diversity with Heterogeneous Backbones2.6.1 From Discrete ω-Amino Acid Guests in α-Helices to Helical α,ω- and β,γ-Peptide Hybrids; 2.6.2 Hairpins from α,ω-Peptide Hybrids; 2.6.3 Sculpting New Shapes by Integrating H-Bonding, Aromatic Interactions and Multiple Levels of Pre-organization; 2.7 Conclusion and Outlook; References; 3 Foldamers Based on Solvophobic Effects; 3.1 Introduction; 3.2 Learning from Solvophobically Driven Assemblies - Intermolecular Solvophobic Interactions; 3.3 Learning from Synthetic and Biological Polymers
3.4 Recent Advances in Foldamers Based on Solvophobic Effects
Record Nr. UNINA-9910144010903321
Weinheim, : Wiley-VCH, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Foldamers [[electronic resource] ] : structure, properties, and applications / / edited by Stefan Hecht and Ivan Huc ; foreword by François Diederich
Foldamers [[electronic resource] ] : structure, properties, and applications / / edited by Stefan Hecht and Ivan Huc ; foreword by François Diederich
Pubbl/distr/stampa Weinheim, : Wiley-VCH, c2007
Descrizione fisica 1 online resource (459 p.)
Disciplina 541
547.7
Altri autori (Persone) HechtStefan <1974->
HucIvan
Soggetto topico Chemistry, Technical
Molecules - Models
Oligomers
ISBN 1-281-08796-3
1-282-11841-2
9786612118418
9786611087968
3-527-61147-9
3-527-61148-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foldamers; Foreword; Contents; Preface; List of Contributors; Part 1 Structure: Foldamer Design Concepts; 1 Foldamers Based on Local Conformational Preferences; 1.1 Introduction; 1.2 Rigidly Locked Molecules; 1.3 Predictable Foldamers; 1.3.1 Local Conformational Control; 1.3.2 Folded Conformations of π-conjugated Systems; 1.3.2.1 Crescents and Helices; 1.3.2.2 Linear Strands; 1.3.2.3 Macrocycles; 1.3.3 Partially π-conjugated Oligomers; 1.4 Semi-rigid Backbones; 1.4.1 Tertiary Aromatic Amides, Imides and Ureas; 1.4.2 Tertiary Aliphatic Amides: Polyprolines and Peptoids
1.4.3 Hindered Polymer and Oligomer Backbones1.5 Conformational Transitions; 1.6 Conclusion and Perspectives; References; 2 Foldamers Based on Remote Intrastrand Interactions; 2.1 Introduction; 2.2 What can be Learned from Strategies used to Control Conformations of α-Polypeptides?; 2.3 Helices from Homogeneous Oligomeric Backbones with Periodicity at the Monomer Level: ω-Peptides and their Analogs; 2.3.1 Compact Helices with Large (>10 atoms) H-bonded Rings; 2.3.1.1 The Homologation Strategy: β- and γ-Peptide Foldamers
2.3.1.2 Imposing Backbone Conformational Restriction/Pre-organization for Optimal Helical Folding2.3.1.3 Folding in an Aqueous Environment; 2.3.1.4 Dynamics of β- and γ-Peptide Helices: Evidence for Noncooperative Folding/Unfolding Processes; 2.3.2 Extended Helices with Small H-bonded Rings Centered at a Single Residue; 2.3.2.1 α-Peptides: the γ-Helix; 2.3.2.2 ω-Peptides with Specific Conformation-stabilizing Elements; 2.3.2.3 Stabilizing Local Backbone Conformation by Inverse-Bifurcation Involving an Additional Heteroatom; 2.4 Oligoamide Mixed Helices
2.4.1 The α-Oligopeptide Precedent: from Antibiotic Gramicidin A to Poly-Gln Aggregates in Huntington's Disease2.4.2 Introducing Periodicity at the Level of a Dimer Unit in β-Peptides leads to a Remarkably Stable Mixed Helical Fold; 2.4.2.1 By Mixing β(2)- and β(3)-Amino Acids; 2.4.2.2 Additional Substitution Patterns Stabilizing the Mixed 10/12- (12/10-) Helix; 2.4.3 Extending the Concept of Mixed Helices; 2.5 Nonperiodic Structures: Open Chain β-Turn-like Motifs and Hairpins in Designed Homo-oligomers; 2.5.1 Sheet-forming ω-peptides; 2.5.2 Turn Segment for Hairpin Formation
2.6 Expanding Structural Diversity with Heterogeneous Backbones2.6.1 From Discrete ω-Amino Acid Guests in α-Helices to Helical α,ω- and β,γ-Peptide Hybrids; 2.6.2 Hairpins from α,ω-Peptide Hybrids; 2.6.3 Sculpting New Shapes by Integrating H-Bonding, Aromatic Interactions and Multiple Levels of Pre-organization; 2.7 Conclusion and Outlook; References; 3 Foldamers Based on Solvophobic Effects; 3.1 Introduction; 3.2 Learning from Solvophobically Driven Assemblies - Intermolecular Solvophobic Interactions; 3.3 Learning from Synthetic and Biological Polymers
3.4 Recent Advances in Foldamers Based on Solvophobic Effects
Record Nr. UNINA-9910830554803321
Weinheim, : Wiley-VCH, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Foldamers [[electronic resource] ] : structure, properties, and applications / / edited by Stefan Hecht and Ivan Huc ; foreword by François Diederich
Foldamers [[electronic resource] ] : structure, properties, and applications / / edited by Stefan Hecht and Ivan Huc ; foreword by François Diederich
Pubbl/distr/stampa Weinheim, : Wiley-VCH, c2007
Descrizione fisica 1 online resource (459 p.)
Disciplina 541
547.7
Altri autori (Persone) HechtStefan <1974->
HucIvan
Soggetto topico Chemistry, Technical
Molecules - Models
Oligomers
ISBN 1-281-08796-3
1-282-11841-2
9786612118418
9786611087968
3-527-61147-9
3-527-61148-7
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Foldamers; Foreword; Contents; Preface; List of Contributors; Part 1 Structure: Foldamer Design Concepts; 1 Foldamers Based on Local Conformational Preferences; 1.1 Introduction; 1.2 Rigidly Locked Molecules; 1.3 Predictable Foldamers; 1.3.1 Local Conformational Control; 1.3.2 Folded Conformations of π-conjugated Systems; 1.3.2.1 Crescents and Helices; 1.3.2.2 Linear Strands; 1.3.2.3 Macrocycles; 1.3.3 Partially π-conjugated Oligomers; 1.4 Semi-rigid Backbones; 1.4.1 Tertiary Aromatic Amides, Imides and Ureas; 1.4.2 Tertiary Aliphatic Amides: Polyprolines and Peptoids
1.4.3 Hindered Polymer and Oligomer Backbones1.5 Conformational Transitions; 1.6 Conclusion and Perspectives; References; 2 Foldamers Based on Remote Intrastrand Interactions; 2.1 Introduction; 2.2 What can be Learned from Strategies used to Control Conformations of α-Polypeptides?; 2.3 Helices from Homogeneous Oligomeric Backbones with Periodicity at the Monomer Level: ω-Peptides and their Analogs; 2.3.1 Compact Helices with Large (>10 atoms) H-bonded Rings; 2.3.1.1 The Homologation Strategy: β- and γ-Peptide Foldamers
2.3.1.2 Imposing Backbone Conformational Restriction/Pre-organization for Optimal Helical Folding2.3.1.3 Folding in an Aqueous Environment; 2.3.1.4 Dynamics of β- and γ-Peptide Helices: Evidence for Noncooperative Folding/Unfolding Processes; 2.3.2 Extended Helices with Small H-bonded Rings Centered at a Single Residue; 2.3.2.1 α-Peptides: the γ-Helix; 2.3.2.2 ω-Peptides with Specific Conformation-stabilizing Elements; 2.3.2.3 Stabilizing Local Backbone Conformation by Inverse-Bifurcation Involving an Additional Heteroatom; 2.4 Oligoamide Mixed Helices
2.4.1 The α-Oligopeptide Precedent: from Antibiotic Gramicidin A to Poly-Gln Aggregates in Huntington's Disease2.4.2 Introducing Periodicity at the Level of a Dimer Unit in β-Peptides leads to a Remarkably Stable Mixed Helical Fold; 2.4.2.1 By Mixing β(2)- and β(3)-Amino Acids; 2.4.2.2 Additional Substitution Patterns Stabilizing the Mixed 10/12- (12/10-) Helix; 2.4.3 Extending the Concept of Mixed Helices; 2.5 Nonperiodic Structures: Open Chain β-Turn-like Motifs and Hairpins in Designed Homo-oligomers; 2.5.1 Sheet-forming ω-peptides; 2.5.2 Turn Segment for Hairpin Formation
2.6 Expanding Structural Diversity with Heterogeneous Backbones2.6.1 From Discrete ω-Amino Acid Guests in α-Helices to Helical α,ω- and β,γ-Peptide Hybrids; 2.6.2 Hairpins from α,ω-Peptide Hybrids; 2.6.3 Sculpting New Shapes by Integrating H-Bonding, Aromatic Interactions and Multiple Levels of Pre-organization; 2.7 Conclusion and Outlook; References; 3 Foldamers Based on Solvophobic Effects; 3.1 Introduction; 3.2 Learning from Solvophobically Driven Assemblies - Intermolecular Solvophobic Interactions; 3.3 Learning from Synthetic and Biological Polymers
3.4 Recent Advances in Foldamers Based on Solvophobic Effects
Record Nr. UNINA-9910841081003321
Weinheim, : Wiley-VCH, c2007
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Formation of ceramics [[electronic resource] /] / founding editor, J.J. Zuckerman; editor, Jim D. Atwood
Formation of ceramics [[electronic resource] /] / founding editor, J.J. Zuckerman; editor, Jim D. Atwood
Pubbl/distr/stampa New York, : Wiley-VCH, c1999
Descrizione fisica 1 online resource (499 p.)
Disciplina 541.3/9
541.39
Altri autori (Persone) ZuckermanJ. J <1936-1987.> (Jerold J.)
AtwoodJim D. <1940->
Collana Inorganic reactions and methods
Soggetto topico Ceramics
Chemistry, Technical
Soggetto genere / forma Electronic books.
ISBN 1-282-30814-9
9786612308147
0-470-14533-1
0-470-14554-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Inorganic 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
Densification 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
Pulling 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
FundamentalsThermodynamics.; 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
Group 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.
Composition of Glasses.
Record Nr. UNINA-9910144316703321
New York, : Wiley-VCH, c1999
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Formation of ceramics [[electronic resource] /] / founding editor, J.J. Zuckerman; editor, Jim D. Atwood
Formation of ceramics [[electronic resource] /] / founding editor, J.J. Zuckerman; editor, Jim D. Atwood
Pubbl/distr/stampa New York, : Wiley-VCH, c1999
Descrizione fisica 1 online resource (499 p.)
Disciplina 541.3/9
541.39
Altri autori (Persone) ZuckermanJ. J <1936-1987.> (Jerold J.)
AtwoodJim D. <1940->
Collana Inorganic reactions and methods
Soggetto topico Ceramics
Chemistry, Technical
ISBN 1-282-30814-9
9786612308147
0-470-14533-1
0-470-14554-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Inorganic 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
Densification 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
Pulling 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
FundamentalsThermodynamics.; 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
Group 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.
Composition of Glasses.
Record Nr. UNINA-9910830906103321
New York, : Wiley-VCH, c1999
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Formation of ceramics [[electronic resource] /] / founding editor, J.J. Zuckerman; editor, Jim D. Atwood
Formation of ceramics [[electronic resource] /] / founding editor, J.J. Zuckerman; editor, Jim D. Atwood
Pubbl/distr/stampa New York, : Wiley-VCH, c1999
Descrizione fisica 1 online resource (499 p.)
Disciplina 541.3/9
541.39
Altri autori (Persone) ZuckermanJ. J <1936-1987.> (Jerold J.)
AtwoodJim D. <1940->
Collana Inorganic reactions and methods
Soggetto topico Ceramics
Chemistry, Technical
ISBN 1-282-30814-9
9786612308147
0-470-14533-1
0-470-14554-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Inorganic 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
Densification 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
Pulling 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
FundamentalsThermodynamics.; 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
Group 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.
Composition of Glasses.
Record Nr. UNINA-9910841353203321
New York, : Wiley-VCH, c1999
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Formulation [[electronic resource] /] / edited by Anne-Marie Pensé-Lhéritier
Formulation [[electronic resource] /] / edited by Anne-Marie Pensé-Lhéritier
Pubbl/distr/stampa London, : ISTE
Descrizione fisica 1 online resource (341 p.)
Disciplina 660.284
660/.284
Altri autori (Persone) Pense-LheritierAnne-Marie
Collana ISTE
Soggetto topico Chemical processes
Chemistry, Technical
Soggetto genere / forma Electronic books.
ISBN 1-118-61656-1
1-118-61657-X
1-118-61658-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Formulation in major organic chemistry industries -- Solutions -- Dispersions -- Formulation of emulsions -- Dispersions -- Dispersions in high-viscosity mediums : formulating polymers -- Dosage form and pharmaceutical development -- Formulation of cosmetic products -- Formulation of food products -- Formulation of elastomers.
Record Nr. UNINA-9910141635203321
London, : ISTE
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Formulation [[electronic resource] /] / edited by Anne-Marie Pensé-Lhéritier
Formulation [[electronic resource] /] / edited by Anne-Marie Pensé-Lhéritier
Pubbl/distr/stampa London, : ISTE
Descrizione fisica 1 online resource (341 p.)
Disciplina 660.284
660/.284
Altri autori (Persone) Pense-LheritierAnne-Marie
Collana ISTE
Soggetto topico Chemical processes
Chemistry, Technical
ISBN 1-118-61656-1
1-118-61657-X
1-118-61658-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Formulation in major organic chemistry industries -- Solutions -- Dispersions -- Formulation of emulsions -- Dispersions -- Dispersions in high-viscosity mediums : formulating polymers -- Dosage form and pharmaceutical development -- Formulation of cosmetic products -- Formulation of food products -- Formulation of elastomers.
Record Nr. UNINA-9910830987803321
London, : ISTE
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Formulation [[electronic resource] /] / edited by Anne-Marie Pensé-Lhéritier
Formulation [[electronic resource] /] / edited by Anne-Marie Pensé-Lhéritier
Pubbl/distr/stampa London, : ISTE
Descrizione fisica 1 online resource (341 p.)
Disciplina 660.284
660/.284
Altri autori (Persone) Pense-LheritierAnne-Marie
Collana ISTE
Soggetto topico Chemical processes
Chemistry, Technical
ISBN 1-118-61656-1
1-118-61657-X
1-118-61658-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Formulation in major organic chemistry industries -- Solutions -- Dispersions -- Formulation of emulsions -- Dispersions -- Dispersions in high-viscosity mediums : formulating polymers -- Dosage form and pharmaceutical development -- Formulation of cosmetic products -- Formulation of food products -- Formulation of elastomers.
Record Nr. UNINA-9910841157903321
London, : ISTE
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui