Andere Kunden interessierten sich auch für
![Transfer Matrix Method - new developments and applications]( "Transfer Matrix Method - new developments and applications")
Transfer Matrix Method - new developments and applications26,99 €![Slip Flow and Melting Heat Transfer of Non-Newtonian Nanofluid]( "Slip Flow and Melting Heat Transfer of Non-Newtonian Nanofluid")
Slip Flow and Melting Heat Transfer of Non-Newtonian Nanofluid36,99 €![Thermo-mechanically Induced Non-Linear Analysis of CNT Composite Beam]( "Thermo-mechanically Induced Non-Linear Analysis of CNT Composite Beam")
Thermo-mechanically Induced Non-Linear Analysis of CNT Composite Beam45,99 €![Influence of Convection Heat Transfer on Crack of Steam Turbine Rotor]( "Influence of Convection Heat Transfer on Crack of Steam Turbine Rotor")
Influence of Convection Heat Transfer on Crack of Steam Turbine Rotor26,99 €![Mechanics of Materials - Laboratory and Experiments]( "Mechanics of Materials - Laboratory and Experiments")
Mechanics of Materials - Laboratory and Experiments32,99 €![Vibration of Nuclear Fuel Assemblies]( "Vibration of Nuclear Fuel Assemblies")
Vibration of Nuclear Fuel Assemblies26,99 €![THERMAL ELASTIC-PLASTIC STRESS ANALYSIS OF COMPOSITE PLATES]( "THERMAL ELASTIC-PLASTIC STRESS ANALYSIS OF COMPOSITE PLATES")
THERMAL ELASTIC-PLASTIC STRESS ANALYSIS OF COMPOSITE PLATES38,99 €
Rapid heating by x-rays and ions in Inertial Fusion Energy (IFE) chambers will produce stress waves in dry chamber walls, in some cases leading to damage that will ultimately fail the structure. These waves can affect the surface or propagate to the substrate and produce delamination. Hence, it is important that these waves be understood. Models exist for thermally induced stress waves resulting from surface heating, but models with volumetric heating have not been presented for IFE conditions. In this book, models are developed for elastic stresses caused by rapid volumetric heating in a half-space. The stress wave models are obtained analytically by using Laplace transforms and compared to a finite element analysis. Different heating distributions which cover the relevant heating for a typical IFE threat are discussed. Results are given for both x-ray and ion heating using threats from a direct drive target.