3.5.1: Material Properties

"Family"

Family name of the material (e.g. “steel”); is used for selecting materials from a list.

"Name"

Name of the material (e.g. “S235”); serves as identification when selecting materials from a list.

"Elem|Id"

An element with an identifier, a string containing an identifier or a regular expression that depicts the elements that shall have the specified material.

"Color"

Color of the material. In order to see it, enable “Materials” in submenu “Colors” of the “ModelView”-component, then enable “Cross section” in submenu “Render Settings” of the “BeamView”- and/or “ShellView”-component.

"E"

Young’s Modulus ($kN/cm^2$): characterizes the stiffness of the material.

"G12"

In-plane shear modulus ($kN/cm^2$): In case of isotropic materials the following constraint applies: $E/3<G_{12}<E/2$ . In case this condition is not fulfilled, the structure may show strange behaviour.

"G13"

Transverse shear modulus ($kN/cm^2$): Is the same as$G_{12}$in case of isotropic materials like e.g. steel. This value can be chosen independently from$E$. In case of e.g. wood, the value may be much smaller than$G_{12}$.

"gamma"

Specific weight ($kN/cm^3$)

"alphaT"

Coefficient of thermal expansion ($1/°C$)

"ft"

Tensile strength of the material ($kN/cm^2$) - a positive value

"fc"

Compressive strength of the material ($kN/cm^2$) - a negative value

"S-Hypo"

Index of the strength hypothesis to be used. Use 'Expand ValueLists' from the components context menu for selecting between these options: 0: Von Mises, 1: Tresca, 2: Rankine

"E1"

Young’s Modulus in the first direction ($kN/cm^2$)

"E2"

Young’s Modulus in the second direction ($kN/cm^2$)

"G12"

In-plane shear modulus ($kN/cm^2$): The value of is liable to a constraint which is further depicted below.

"nue12"

$v_{12}$ ​is the in-plane lateral contraction coefficient (also called Poisson’s ratio): In case$v_{12}=-1$(the default) the approximate formula of Huber [8] is applied to $v_{21}$​ calculated from​$E_1$, $E_2$ and $G_{12}$: $v_{12}​=\frac{E_1}{2.G_{12}}​​−\sqrt{\frac{E_2}{​E_1}}​​ ​$

"G31"

Transverse shear modulus in the first direction ($kN/cm^2$)

"G32"

Transverse shear modulus in the second direction ($kN/cm^2$)

"gamma"

Specific weight ( $kN/m^3$ )

"alphaT1"

Coefficient of thermal expansion in the first direction ( $1/°C$ )

"alphaT2"

Coefficient of thermal expansion in the second direction ( $1/°C$ )

"ft1"

Tensile strength of the material ($kN/cm^2$) in the first direction - a positive value

"ft2"

Tensile strength of the material ($kN/cm^2$) in the second direction - a positive value

"fc1"

Compressive strength of the material ($kN/cm^2$) in the first direction - a negative value

"fc2"

Compressive strength of the material ($kN/cm^2$) in the second direction - a negative value

"t12"

Shear strength ($kN/cm^2$) between first and second material direction.

"F12"

Tsai-Wu interaction coefficient

"S-Hypo"

Index of the strength hypothesis to be used. Use 'Expand ValueLists' from the components context menu for selecting between these options: 0: Von Mises, 1: Tresca, 2: Rankine, 3:TsaiWu