Hoop stresses due to a moving shock front in a gas filled, thick walled cylinder can be approximated, using vibration theory. Vibration theory provides a reasonable rendering of vibration in a pipe wall, based on comparisons of theory to available experimental data. Also, this vibration is significantly affected by stress waves in the wall, and the maximum stresses may be affected by as much as 20 percent. The maximum stresses and strains occur at a critical velocity, which was described previously in the literature. An equation was presented here to provide an upper estimate of the stresses at the critical velocity or any other velocity. The equation of motion can be combined with hoop stress equations to describe the dynamic changes in hoop stress to provide insight into the phenomenon of flexural resonance, which depends on a critical velocity of the shock in the cylinder. At shock velocities below critical, the maximum hoop stress equals one times the static stress, which would be obtained in the pipe wall if the stress was slowly applied. Above the critical velocity, the maximum hoop stress is less than twice the static hoop stress. Near the critical velocity, the hoop stress approximately triples the static stress, as shown in existing experimental data in the literature. The inclusion of structural and fluid damping in the vibration equations describes the stresses, which were experimentally observed. In short, a comprehensive vibration equation is presented in this paper and is compared to available experimental work.


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    Title :

    Stresses in a cylinder subjected to an internal shock


    Contributors:


    Publication date :

    2005


    Size :

    9 Seiten, 10 Bilder, 2 Tabellen, 12 Quellen



    Type of media :

    Conference paper


    Type of material :

    Print


    Language :

    English




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