Abstract
This study deals with the influence of radial body forces on FGM and non-FGM pressure vessels. It contains an extended overview of pressure vessels made from both kinds of material. Furthermore, full mathematical development of stress-strain field for both kinds of cylindrical vessels while being influenced by body forces has been performed. In addition, a new power law model for FGM materials was suggested and discussed. Finally, tables of composed plastic-elastic states are discussed.
Highlights
Jacob NaglerThis study deals with the influence of radial body forces on FGM and non-FGM pressure vessels
Pressure vessels have many engineering applications in many aspects of life, like energy, electronics, mechanics, and biomedical engineering as described by the author and others [1,2,3]
Recent researchers and studies on this field are well described by Kalali and Hadidi-Moud [2], Ansari Sadrabadi and Rahimi [3], and Sadeghian and Ekhteraei Toussi [4]
Summary
This study deals with the influence of radial body forces on FGM and non-FGM pressure vessels. It contains an extended overview of pressure vessels made from both kinds of material. Full mathematical development of stress-strain field for both kinds of cylindrical vessels while being influenced by body forces has been performed. A new power law model for FGM materials was suggested and discussed. Tables of composed plastic-elastic states are discussed
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