Buch, Englisch, Band 65, 176 Seiten, Paperback, Format (B × H): 170 mm x 242 mm, Gewicht: 339 g
Reihe: Lecture Notes in Engineering
Buch, Englisch, Band 65, 176 Seiten, Paperback, Format (B × H): 170 mm x 242 mm, Gewicht: 339 g
Reihe: Lecture Notes in Engineering
ISBN: 978-3-540-53779-3
Verlag: Springer Berlin Heidelberg
Virtual distortions are incompatible deIormations imposed on structures (e. g., by nonhomogeneous heating or by local imperIections) causing a compatible state OI deIormation (initial deformations) and a selI-equilibrated state OI stress (initial stresses). The theory OI virtual distortions provides an eIIicient tool which can be used to treat many problems that diIIer Irom the physical point OI view. Thermal stresses, material deIects, residual stresses in plasticity are examples OI problems that can be analysed emploing the virtual distortions approach, where the temperature Iield, dislocations and plastic distortions (permanent plastic deIormations) are described by virtual distortions. The presented approach allows the development OI eIIicient computational methods Ior numerical analysis OI such problems. States OI compatible deIormations and selI-equi1 ibrated stresses caused by virtual distortions in homogeneous and compound (biphase) bodies are analysed in the Iirst part OI the book. The results OI these considerations are explored in the next two chapters. The Iormulation OI the approach discussed in Chapter 1 and based on continuum mechanics was presented previously in the papers [5,17] while its application to the analysis OI skeletal structures was discussed in [47].
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Weitere Infos & Material
1. Analysis of initial stresses and deformations caused by virtual distortions.- 1.1. Distortions in elastic body.- 1.2. Analysis of stresses and deformations caused by distortions.- 1.3. Examples of structures with distortions.- 1.4. Distortions in biphase body.- 1.5. Surface distortions.- 2. Simulation by virtual distortions.- 2.1. Simulation of geometrical and physical modifications in structures.- 2.2. Simulation of shape modifications in continuous bodies.- 3. Optimal control by means of imposed virtual distortions.- 3.1. Passive control of stresses (prestress).- 3.2. Quasi-statical active control problems.- 3.3. Active damping of vibration.- 3.4. Active strategy of avoiding resonance.- References.
