Products: Abaqus/Standard Abaqus/Explicit
You can define rebar in two-dimensional elements.
Let 
be the element's usual isoparametric coordinates. Let r be an isoparametric coordinate along the line where the face of the element intersects the plane of reinforcement, with 
in an element (see Figure 3.7.1–1).
The rebar will be integrated at one or two points, depending on the order of interpolation in underlying elements. The volume of integration 
, position, rebar strain 
, and first and second variations of rebar strain 
and 
at each point are calculated as
is the original thickness for plane elements and 
for axisymmetric elements;
is the rebar cross-sectional area;
is the spacing of rebar (for axisymmetric elements 
, where 
is the radius where the spacing 
is given);
is the Gauss weight associated with the integration point along the 
line;
is position; and
Strain is
and 
measure length along the rebar in the current and initial configurations, respectively.For the deformations allowed in these elements,
is the orientation of the rebar from the plane of the model,
is the stretch ratio in the thickness direction:
for plane stress or plane strain;
for generalized plane strain, where t is given in “Generalized plane strain elements,” Section 3.2.7; and
for axisymmetric elements.
From these results the first variation of strain is
for plane stress and plane strain,
for generalized plane strain, and
for axisymmetric cases.
