Linear Elastic Material
The Linear Elastic Material node adds the equations for a linear elastic beam and an interface for defining the elastic material properties.
By adding the following subnodes to the Linear Elastic Material node you can incorporate many other effects:
Linear Elastic Material
Define the linear elastic material properties.
Specification of Elastic Properties for Isotropic Materials
From the Specify list, select a pair of elastic properties for an isotropic material. Select:
Young’s modulus and Poisson’s ratio to specify Young’s modulus (elastic modulus) E and Poisson’s ratio ν. Poisson’s ratio is used for computing the torsional stiffness, and is thus important only for 3D beams.
Young’s modulus and shear modulus to specify Young’s modulus (elastic modulus) E and the shear modulus G. The shear modulus is used for computing the torsional stiffness, and is thus important only for 3D beams.
Bulk modulus and shear modulus to specify the bulk modulus K and the shear modulus G.
Lamé parameters to specify the Lamé parameters λ and μ.
Pressure-wave and shear-wave speeds to specify the pressure-wave speed (longitudinal wave speed) cp and the shear-wave speed (transverse wave speed) cs.
For each pair of properties, select from the applicable list to use the value From material or enter a User defined value or expression.
Each of these pairs define the elastic properties, and it is possible to convert from one set of properties to another.
Density
Define the Density ρ of the material. Select From material to take the value from the material or User defined to enter a value for the density.
Thermally Loaded Beam: Application Library path Structural_Mechanics_Module/Verification_Examples/thermally_loaded_beam
Location in User Interface
Context Menus
Beam>Material Models>Linear Elastic Material
Ribbon
Physics tab with Beam selected:
Edges>Material Models>Linear Elastic Material