By inserting the upper polarizes between crossed polarizes.
Concrete is an isotropic material with different strength properties with respect to the type of imposed loadings.
An anisotropic material is a material which does not behave the same way in all directions. Take wood for example. Wood is very strong along the grain. Against the grain, however, it will easily break. The opposite of an anisotropic material is an isotropic material. Most metals (steel, aluminum) are isotropic materials. They respond the same way in all directions.
An isotropic material has properties which are independent of the direction in which they are measured whereas in an anisotropic material the properties do depend on the direction .
anisotropic materials have different properties in different directions.
an orthotropic material is one that has the different materials properties or strength in different octhogonal directions, but properties of anisotropic material being directionally dependent. thus Orthotropic materials are anisotropic.
anisotropic are the bright bands in the muscle tissue while isotropic are the dark bands when view under polarised light.
Concrete is an isotropic material with different strength properties with respect to the type of imposed loadings.
An anisotropic material is a material which does not behave the same way in all directions. Take wood for example. Wood is very strong along the grain. Against the grain, however, it will easily break. The opposite of an anisotropic material is an isotropic material. Most metals (steel, aluminum) are isotropic materials. They respond the same way in all directions.
An isotropic material has properties which are independent of the direction in which they are measured whereas in an anisotropic material the properties do depend on the direction .
cleavage is an isotropic behaviur discuss
Aluminium and steel are e.g. of isotropic materials.
This is a mixture of materials which can be distinguished from each other.
anisotropic materials have different properties in different directions.
Bruce H. Dubendorff has written: 'Changes in seismic velocity and apparent attenuation due to isotropic and anisotropic scattering' -- subject(s): Echo scattering layers, Seismic waves
For isotropic materials, Rubber - very close to 0.5
It is the same everywhere and in all directions.
Most polycrystalline materials consist of randomly arranged crystals or "grains." Although individual grains have different orientations and behave anisotropically by themselves, at a larger scale the material behavior is determined by the sum of many grain orientations, and the bulk material acts in an isotropic manner. There are some notable exceptions to this generalization. If the crystals or grains in a solid material are all aligned in the same or similar directions (called "columnar" orientation of grains), as is the case in some turbine blades, the crystal will exhibit anisotropic behavior.