Keeletalast

Keeletalast is a term used primarily in speculative biomechanics and biomimetic design to describe a hypothetical endoskeletal architecture characterized by a dense, three‑dimensional lattice that fills the interior of a long bone or rigid structure. In keeletalast models, the lattice comprises interconnected struts and nodes that create a high surface area and a tunable balance between stiffness and weight. The concept is employed to explore load transfer in porous skeletal analogs and to inform the design of lightweight implants and prosthetics.

Etymology for keeletalast is not standardized in formal nomenclature, as the term appears to be a modern

Characteristics and design considerations of keeletalast systems include pore size, connectivity, strut geometry, and overall lattice

Applications and status: Keeletalast is most often discussed in the contexts of computational modeling, biomimetic material

See also: porous bone, trabecular bone, lattice materials, biomimetics.