libisemisplaane

Libisemisplaane, or slip planes, are crystallographic planes along which dislocations glide during plastic deformation in crystalline materials. They represent preferred pathways for dislocation motion under applied shear stress, with the ease of deformation determined by the atomic packing of the plane.

A slip system consists of a slip plane and a slip direction. Deformation occurs when the resolved

In common crystal structures, the active slip planes are:

- Face-centered cubic (FCC): slip on {111} planes in <110> directions; high ductility.

- Body-centered cubic (BCC): slip on {110}, {112}, and sometimes {123} planes with <111> directions; activity varies

- Hexagonal close-packed (HCP): basal slip on {0001} planes with <11-20> directions; additional prismatic or pyramidal systems

Slip planes and their associated slip directions determine ductility, work hardening, and mechanical anisotropy. Factors such

Understanding libisemisplaane is essential for crystal plasticity, materials design, and metal forming, where predicting active slip