Optimal design of sandwich ribbed flat baffle plates of a circular cylindrical tank

“…Mechanical and thermal loads were taken into account by specifying different temperatures in the internal and external walls of the nozzle and dished end (head). The work of Malinowski and Magnuki [3] employed parametric discrete optimization techniques to design internal reinforcements of pressure vessels by minimizing the reinforcement mass considering stress constraints. Following an analytical approach Jaroslav Mackerle [4] gives review of finite element methods (FEM) applied for the analysis of pressure vessel structures/components from the theoretical as well as practical points of view.…”

Design and Analysis of Impregnation Chamber Used In Vacuum Pressure Impregnation Process

“…Mechanical and thermal loads were taken into account by specifying different temperatures in the internal and external walls of the nozzle and dished end (head). The work of Malinowski and Magnuki [3] employed parametric discrete optimization techniques to design internal reinforcements of pressure vessels by minimizing the reinforcement mass considering stress constraints. Following an analytical approach Jaroslav Mackerle [4] gives review of finite element methods (FEM) applied for the analysis of pressure vessel structures/components from the theoretical as well as practical points of view.…”

Design and Analysis of Impregnation Chamber Used In Vacuum Pressure Impregnation Process

“…The obtained results showed satisfactory improvements. The work of Malinowski and Magnuki [8] employed parametric discrete optimization techniques to design internal reinforcements of pressure vessels by minimizing the reinforcement mass considering stress constraints. Following an analytical approach, Banichuk et al [9] used variational calculus to find the head meridian profile optimal curve in order to maximize the ratio between head volume and mass subjected to stress constraints.…”

Design of pressure vessels using shape optimization: An integrated approach

“…Magnucka-Blandzi and Magnucki [22] optimized the sandwich beam with metal foam core under strength and stability constrains. Malinowski and Magnucki [23] used parametric discrete optimization techniques to design internal reinforcements of pressure vessels by minimizing the reinforcement mass considering stress constraints. Magnucki et al [24][25][26] presented the strength analysis of a simply supported five layer sandwich beams with a metal foam core and with corrugated core.…”

“…Mohan et al [30] investigated a failure problem of sandwich beams with aluminum foam core in bending. Mohanty [23][24][25][26][27][28][29][30] et al [31] presented the evaluation of static and dynamic behavior of functionally graded Timoshenko beams. Tagarielli et al [32] investigated experimentally and theoretically the plastic collapse modes of a simply supported and clamped sandwich beams with an aluminum face sheets and a metal foam core.…”

Static and dynamic stability of an axially compressed five-layer sandwich beam