Materials are considered to be isotropic if the properties are not dependent on the direction. The isotropic material properties are listed below. Depending on the element type, analysis type and loads, not all the material properties may be required.
The mass density of a material is its mass per unit volume. Mass density is applicable to all linear elements. This property is required in all linear analyses involving gravity or acceleration loads. This property is also required for natural frequency (modal) and all modal superposition analyses.
The modulus of elasticity is the slope of the stress versus strain curve of a material until the proportionality limit, or yield stress. It is also referred to as the Young's modulus of a material. The modulus of elasticity is applicable to all linear elements and is required for all linear analyses.
The thermal coefficient of expansion is based on the contraction and expansion of the material due to a temperature difference. This is applicable for all linear element types. This is required for any linear model containing thermal loads.
Poisson's ratio is found by taking the negative lateral strain and dividing it by the axial strain for an axially loaded member. Typical values for Poisson's ratio range from 0.0 to 0.5. This is applicable for all linear element types except for trusses. This is required for all linear analysis types.
The yield strength of a material is the point on the stress versus strain curve where the material initially starts to go into plastic strain. After yielding once, the new yield stress depends on the type of hardening and the loading history.
The yield strength is used with beam elements in linear stress for code checking, as a parameter for the allowable stress. Otherwise, the yield stress has no effect on the results in a linear analysis (that is, plasticity effects are not included). Also, the yield strength field will not appear within the Element Material Specification dialog box for non-beam element parts. However, you can specify the yield strength within the Material Library Manager and within the Results environment, where it is used by default as the basis of Safety Factor contour plots.
The shear modulus of elasticity is the slope of the shear-stress versus shear-strain curve of a material below the proportionality limit. This is also referred to as the modulus of rigidity. It is applicable to all linear element types except trusses and beams. For isotropic material models, you cannot specify the shear modulus of elasticity within the Element Material Specification dialog box. Instead, the software uses the equation to calculate the value, where E is the modulus of elasticity and ν is the Poisson's ratio.