Thermal conductivity of biomimetic leaf composite

Abstract: The venous morphology of a typical plant leaf affects its mechanical and thermal properties. Such a material could be considered as a fiber reinforced composite structure where the veins and the rest of the leaf are considered as two materials having highly contrast mechanical and thermal properties. The variegated venations found in nature is idealized into three principal fibers—the central mid-fiber corresponding to the mid-rib, straight parallel secondary fibers attached to the mid-fiber representing the s… Show more

“…Therefore, the system leverages reservoir geometry for enhanced performance (high P burst ), indicating the observed values of α/β. Such is a recurring theme in many biological systems where the limitations of material properties are overcome by geometry or topology of the structure (48)(49)(50)(51)(52)(53)(54)(55)(56)(57)(58)(59)(60). In contrast, an outer layer with very low strength would not withstand the stresses associated with pressure rise in the small reservoirs and would thus rupture at lower pressures and produce slower yet more stable jets.…”

High-speed microjets issue from bursting oil gland reservoirs of citrus fruit

“…Therefore, the system leverages reservoir geometry for enhanced performance (high P burst ), indicating the observed values of α/β. Such is a recurring theme in many biological systems where the limitations of material properties are overcome by geometry or topology of the structure (48)(49)(50)(51)(52)(53)(54)(55)(56)(57)(58)(59)(60). In contrast, an outer layer with very low strength would not withstand the stresses associated with pressure rise in the small reservoirs and would thus rupture at lower pressures and produce slower yet more stable jets.…”

High-speed microjets issue from bursting oil gland reservoirs of citrus fruit

Competitive grain growth behavior in laminated ceramic composites: An insight from numerical simulation

Progressive modeling of transverse thermal conductivity of unidirectional natural fiber composites