05490nam 2200709Ia 450 991082226630332120240416131422.01-281-05935-897866110593540-08-053375-2(CKB)1000000000384997(EBL)318318(OCoLC)476112974(SSID)ssj0000168527(PQKBManifestationID)12011124(PQKBTitleCode)TC0000168527(PQKBWorkID)10193180(PQKB)10400900(Au-PeEL)EBL318318(CaPaEBR)ebr10201808(CaONFJC)MIL105935(OCoLC)437191721(MiAaPQ)EBC318318(PPN)178929263(EXLCZ)99100000000038499719970619d1998 uy 0engur|n|---|||||txtccrHandbook of vacuum science and technology /edited by Dorothy M. Hoffman, Bawa Singh, John H. Thomas, III1st ed.San Diego, CA Academic Pressc19981 online resource (861 p.)Description based upon print version of record.0-12-352065-7 Includes bibliographical references and index.Front Cover; HANDBOOK OF VACUUM SCIENCE AND TECHNOLOGY; Copyright Page; Contents; Preface; List of Contributors; Part 1: Fundamentals of Vacuum Technology and Surface Physics; Chapter 1.1. Vacuum Nomenclature and Definitions; 1.1.1 Basic Definition; 1.1.2 Pressure Regions of Vacuum; Chapter 1.2. Gas Properties; 1.2.1 Description of Vacuum as a Low-Pressure Gas; 1.2.2 Characteristics of a Gas-Basic Definitions; 1.2.3 Gas Laws; Chapter 1.3. Molecular Processes and Kinetic Theory; 1.3.1 General Description; 1.3.2 Molecular Motion; 1.3.3 Kinetic Theory Derivation of the Gas Laws; 1.3.4 Pressure1.3.5 Molecular Mean Free Path1.3.6 Number of Impacts with the Chamber Wall; 1.3.7 Time to Form a Monolayer; 1.3.8 Thermal Transpiration; 1.3.9 Coefficient of Thermal Conductivity; 1.3.10 Coefficient of Diffusion; Chapter 1.4. Throughput, Pumping Speed, Evacuation Rate, Outgassing Rate, and Leak Rate; Chapter 1.5. Gas Flow; 1.5.1 Nature of Gas Flow; 1.5.2 Turbulent Flow; 1.5.3 Viscous, Streamline, or Laminar Flow; 1.5.4 Molecular Flow; 1.5.5 Flow Relationships; Chapter 1.6. Conductance; 1.6.1 Conductance; 1.6.2 Conductances in Parallel; 1.6.3 Conductances in SeriesChapter 1.7. Flow Calculations1.7.1 Equations for Viscous Flow; 1.7.2 Equations for Molecular Flow; 1.7.3 Knudsen's Formulation; 1.7.4 Clausing Factors; Chapter 1.8. Surface Physics and Its Relation to Vacuum Science; 1.8.1 Physical Adsorption or ""Adsorption""; 1.8.2 Chemisorption; 1.8.3 Sticking Coefficient; 1.8.4 Surface Area; 1.8.5 Surface Adsorption Isotherms; 1.8.6 Capillary Action; 1.8.7 Condensation; 1.8.8 Desorption Phenomena; 1.8.9 Thermal Desorption; 1.8.10 Photoactivation; 1.8.11 Ultrasonic Desorption; 1.8.12 Electron- and Ion-Stimulated Desorption1.8.13 Gas Release from SurfacesReferences; Part 2: Creation of Vacuum; Chapter 2.1. Technology of Vacuum Pumps - An Overview; 2.1.1 Vacuum Pump Function Basics; 2.1.2 Gas Transport: Throughput; 2.1.3 Performance Parameters; 2.1.4 Pumping Speed; 2.1.5 Pumpdown Time; 2.1.6 Ultimate Pressure; 2.1.7 Forevacuum and High-Vacuum Pumping; 2.1.8 Pump System Relationships; 2.1.9 Crossover from Rough to High-Vacuum Pumps; 2.1.10 Pumping System Design; References; Chapter 2.2. Diaphragm Pumps; 2.2.1 Introduction: Basics and Operating Principle; 2.2.2 State-of-the-Art Design and Manufacturing2.2.3 Performance and Technical Data2.2.4 Modular Concept for Specific Application Setups: Standalone Operation; 2.2.5 Diaphragm Pumps as Backing and Auxiliary Pumps in Vacuum Systems; References; Chapter 2.3. Vacuum Blowers; 2.3.1 Introduction; 2.3.2 Equipment Description; 2.3.3 Blower Operating Principle; 2.3.4 Blower Pumping Efficiency; 2.3.5 Blower Pumping Speed Calculations; 2.3.6 Power Requirements; 2.3.7 Temperature Considerations; 2.3.8 Flow and Compression Ratio Control Mechanisms; 2.3.9 Liquid-Sealed Blowers; 2.3.10 Selected System ArrangementsChapter 2.4. Vacuum Jet Pumps (Diffusion Pumps)The Handbook of Vacuum Technology consists of the latest innovations in vacuum science and technology with a strong orientation towards the vacuum practitioner. It covers many of the new vacuum pumps, materials, equipment, and applications. It also details the design and maintenance of modern vacuum systems. The authors are well known experts in their individual fields with the emphasis on performance, limitations, and applications rather than theory. There aremany useful tables, charts, and figures that will be of use to the practitioner.Key Features* User oriented with manVacuum technologyHandbooks, manuals, etcMechanical engineeringVacuum technologyMechanical engineering.621.5/5 21621.55621.55Hoffman Dorothy M.d. 1996.1611565Singh Bawa1560642Thomas John H347489MiAaPQMiAaPQMiAaPQBOOK9910822266303321Handbook of vacuum science and technology3939892UNINA