makromesotason

Makromesotason is a theoretical concept used in materials science and complex systems to describe the bidirectional coupling between macroscopic structure and mesoscopic dynamics within a single material or system. The term blends macro- (large-scale) and meso- (intermediate-scale) with a suffix that signals a mediating state or process across scales. In this view, macroscopic constraints such as applied load, boundary conditions, or external fields influence mesoscale organization—such as domain formation, phase separation, or network connectivity—and those mesoscale features, in turn, alter bulk properties like stiffness, strength, diffusion, and thermal conductivity.

Modeling makromesotason involves multiscale approaches that couple representations at different length and time scales. Techniques include

Applications of the concept span polymer gels, fiber-reinforced composites, metamaterials, and energy storage materials, where performance

See also: multiscale modeling, hierarchical materials, mesoscale phenomena, phase-field methods, homogenization theory.