Abstract
Moist skin on the wild surface is a roll alteration that transports droplets like a superconductor in a single or multi-layer multi-block module. Coruscating-individualization realization level (CIRL) within the skin used a technique of messaging with a roll realization level function in the stiff swell-repercussion status and mixing with pulse changes. In the swell-repercussion status, the roll messaging function within the skin was calculated as the roll value found as a peel-stick-wall-dot by the superstructure being observed. The roll repercussion function shown in the dermis layer consisted of an alteration signal as a realization level based on the coruscating-individualization level, and was measured using the technical concept of pulse change of the diffusion repercussion function and converted to the value of CIRL by the maximum average. The degree of pulse change was expressed as the degree of water distribution within the skin, and a value was formed according to the realization level of the repercussion function. In Ro-RG-FA-ΦMAX-MIN, the roll far alteration value due to roll peel-stick-wall-dot repercussion was shown as 19.77±4.36 units. In roll convenient alteration value, Ro-RG-CO-ΦMAX-MIN was found to be 6.68±1.33. In roll flank alteration value, Ro-RG-RO-ΦMAX-MIN was found to be 1.64±0.01 units. In roll vicinage alteration value, Ro-RG-VI-ΦMAX-MIN was found to be 0.42±0.15 units. In the dermis layer, swell repercussion by CIRL is evaluated by the degree of peel-stick-wall-dot diffusion function shown at the roll realization level of porous matter, and the dermis layer shown at the messaging level system is expressed as a differentiated function and can be used. You can. The function of the porous in the dermis layer is a concept that suppresses differential signals in diffusion realizationl systems and could be utilized as a promising key tool to utilize the data from a nanotechnology perspective and for basic applications for analyzing surfaces.
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