Design & Analysis
Proceedings of the Sixth International Conference Held in Beijing, People's Republic of China, 11-15 September 1988
Published on 2. October 2013
750 pages
978-1-4832-8430-9 (ISBN)
Description
Pressure Vessel Technology, Volume 1: Design and Analysis is a collection of papers presented at the Sixth International Conference on Pressure Vessel Technology, held in Beijing, People's Republic of China on September 11-15, 1988. This conference presents the practical applications in pressure vessel technology, specifically the developments and research, as well as contributions from prominent specialists from many different countries related to their design, materials, fabrication, and methods of inspection. This volume is divided into 61 chapters and begins with a presentation of guidelines and design criteria for various pressure vessel components, such as the nuclear, piping, and boiler components. The succeeding chapters deal with the features and practical application of the seismic design criteria, the issues of vibration, instabilities, damping, and flows. These topics are followed by discussions of the application of the discrete vortex method to flow over structures; tests and analysis of sealing characteristics; the properties of flange, gaskets, and heat exchangers; and stress analysis experiments. This work also includes papers on thermal stress tests, elastoplastic and deformation analysis, crack stability, and the application of computer for automation in analysis. The remaining chapters survey some international design standards of pressure vessels. This book will prove useful to mechanical and design engineers.
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Content
Volume 1 A Guide Line for Strength Evaluation and Design of Threaded Connexions in High Pressure Facilities Plastic Fracture Evaluation in Section XI of the ASME Code: Current Criteria and New Horizons ASME Section XI Activities Past, Present & Future Improvements on Fatigue Methods for the Design of Nuclear Components Subjected to the French RCC-M Code A Fourier Series Solution for a Cylindrical Shell Subject to a Radial Loading Acting Over a Circular Patch Atmospheric Heating of Vessels Design Criteria for Piping Components against Plastic Collapse: Application to Pipe Bend Experiments Practical Problems and Applications of Boiler and Pressure Vessel Codes in the Nuclear Industry The Stochastic Approach for the Seismic Design of Nuclear Power Plant Equipments On the Seismic Design Criteria and PVP Code Requirements in Japan and the United States A Review of Two-Phase Flow-Induced Vibration Vibration Damping of Heat Exchanger Tubes in Liquids: Effects of Support Parameters The Mechanics Underlying Flow-Induced Instabilities of Cylinder Arrays in Cross-Flow Parametric Studies on the Measurements of Damping Quantities Guidelines for Reduction of Random Modal Test Data Application of the Discrete Vortex Method to Flow Over Structures On the Elevated Temperature Behaviour of Gaskets An Overview of the US PVRC Research Program on Bolted Flanged Connections Tests and Analysis of Sealing Characteristics Under Thermal Transient on a Nuclear Pressure Vessel Mode A Progress Report of the US PVRC Joint Task Group on Elevated Temperature Behavior of Bolted Flanges Bolted Flanged Connections for Non-Circular Pressure Vessels Characteristics of Spiral-Wound Gaskets with Insertion of Graphite or Asbestos for Bolted Assemblies used in PWR Plants Effect of Flange Finish on New Gasket Design Constants Non-Stress Relieved Welded Pressure Vessels Fracture of Pressurized Metal and Graphite/Epoxy Cylinders for Applications to Pressure Vessel Design Why Layered Wall Inner Shells do not Buckle On the Design of the 800 Wire-Wound Superhigh Pressure Vessel Design of Modern Heat Exchangers Using Hydraulic Tube Expansion A Band-Lock Door Closure Design Method Pressure and Temperature of Discharging Steam at Safety Valve Outlet A Progress Report of the US Pressure Vessel Research Committee Subcommittee on Elevated Temperature Design Tubesheet Heat Exchangers: Analysis and Comparison of TEMA, CODAP and ASME Methods Tube Sheet Design by Code Formulas - Ramification of Plasticity at the Tube Sheet Shell Joint International Comparison of Stress Analysis Concepts for Chemical Plant Components An Analysis of an Autofrettaged Cylinder Considering Strain-Hardening Effect, Bauschinger Effect and Temperature Dependence of Material Properties (Part 1.
