Geometric and Mechanical Analysis of Selenium-Enriched Eggs

Geometric and Mechanical Analysis of Selenium-Enriched Eggs

Blog Article

Geometric and mechanical analyses were performed on 82 selenium-rich eggs, which underwent hydrostatic testing as 2 raw eggs, 60 steamed eggs, read more and 20 emptied eggshells.By analyzing the geometric and mechanical properties of the egg, we can draw inspiration from its structural design to create a pressure shell capable of effectively withstanding the immense water pressure in deep-sea environments.The major axis, minor axis, egg-shape coefficient, weight, thickness, volume, superficial area, and ultimate compressive strength were measured, and their correlations were analyzed.The thickness, egg-shape coefficient, and ultimate compressive strength were normally distributed, and many parameters were strongly correlated.

Moreover, finite element analysis was conducted to evaluate the compressive resistance of egg-like pressure shells made from different materials, including metal, ceramic, resin, and selenium-enriched eggshell materials.The performance ratio of the ceramic shells was 2.6 times higher than that of eggshells, and eggshells outperformed metal and resin shells by factors of 2.14 and 4.

49, respectively.The eggshells had excellent compression resistance.These findings offer novel insights into the design and new belial model optimization of egg-like pressure shells.