fotoelasticiteit

Fotoelasticiteit is a non-destructive optical method used to determine the stress and strain distribution in transparent materials. It is based on the phenomenon of birefringence, where a material exhibits different refractive indices depending on the polarization direction of light passing through it. When a transparent material is subjected to mechanical stress, its internal structure changes, leading to optical anisotropy. This anisotropy causes light to split into two polarized rays, which travel at different speeds. As these rays recombine, they produce interference patterns that can be observed and analyzed.

The principles of fotoelasticiteit were first observed by David Brewster in the early 19th century. The technique

Fotoelasticiteit is widely used in engineering to analyze stress concentrations around holes, notches, and other geometric