Thixotropy

Thixotropy is a property of materials that allows them to regain their shape and texture after deformation. This phenomenon was discovered in 1948 by the French physicist Joseph Friedel, who studied the properties of rubber.

Thixotropy manifests itself in the fact that a material that has been deformed restores its shape and size after removing the load. This occurs due to the fact that structural changes occur in the material, which lead to changes in its properties.

One example of thixotropy is rubber. When rubber deforms, it becomes more elastic and flexible. Once the load is removed, the rubber regains its original shape and texture due to its molecules returning to their original state.

Another example of thixotropy is found in some types of concrete. If concrete has been severely deformed, then after removing the load it can recover to its original shape due to the fact that its structure becomes stronger and more stable.

In general, thixotropy is an important material property that is used in a variety of fields, including medicine, construction, and manufacturing. It allows you to create materials that can change their shape and properties depending on operating conditions.

Thixotropy is the phenomenon of amorphous liquid, or the ability of a substance to restore its previous shape after deformation. It is used in various types of coatings and reactive materials, as well as for medical purposes. However, it is also worth considering that prolonged exposure to thixotropic substances can lead to comedogenic damage.