Fundamentals of Vacuum Science and System Design for High and Ultrahigh Vacuum, Volume 2 - Gaines, J R; Healy, Matthew
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Erscheint vorauss. 1. September 2025
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Fundamentals of Vacuum Science and System Design for High and Ultrahigh Vacuum, Volume 2: Creating and Measuring Vacuum reviews the many specialized components that must be effectively integrated to create, support, and measure vacuum. This includes pipes, valves, flexible bellows, and several types of vacuum pumps, including rotary vane, dry scroll, turbomolecular, and cryogenic varieties. Pressure sensors are also reviewed with specific attention to their operating principles, pressure range, accuracy, reproducibility, and calibration. The unique features of various vacuum components are…mehr

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Produktbeschreibung
Fundamentals of Vacuum Science and System Design for High and Ultrahigh Vacuum, Volume 2: Creating and Measuring Vacuum reviews the many specialized components that must be effectively integrated to create, support, and measure vacuum. This includes pipes, valves, flexible bellows, and several types of vacuum pumps, including rotary vane, dry scroll, turbomolecular, and cryogenic varieties. Pressure sensors are also reviewed with specific attention to their operating principles, pressure range, accuracy, reproducibility, and calibration. The unique features of various vacuum components are highlighted to aid in the selection of devices appropriate for specific pressure ranges and operating conditions. This volume informs the reader about critical vacuum components and how they can be integrated in a complete, dynamically pumped, vacuum system. The specific nuances related to pressure ranges and vacuum component characteristics are featured. Design considerations, such as vacuum gauge placement relative to active gas flows, pressure differentials, and pressure control approaches are also discussed.
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Autorenporträt
J.R. Gaines is the Technical Director of Education for the Kurt J. Lesker Company, Jefferson Hills PA, United States. He has more than 40 years of experience in the research, development, and commercialization of advanced materials technologies including superconductivity, semiconductors, cryogenics, space simulation, energy generation, and energy conversion and storage. His experience includes vacuum systems, thin-film deposition, inorganic chemistry, nanotechnology, and advanced ceramic processing. He currently develops and delivers Lesker's many educational programs through Lesker University teaching events.