ProductsAbaqus/StandardAbaqus/ExplicitAbaqus/CAE Element typesGeneral element
Active degrees of freedom1, 2 Additional solution variablesNone. Pore pressure element
Active degrees of freedom1, 2, 8 at nodes on the top and bottom faces 8 at nodes on the middle face Additional solution variablesNone. Nodal coordinates requiredElement property definitionYou can define the element's initial constitutive thickness and the out-of-plane width. The default initial constitutive thickness of cohesive elements depends on the response of these elements. For continuum response, the default initial constitutive thickness is computed based on the nodal coordinates. For traction-separation response, the default initial constitutive thickness is assumed to be 1.0. For response based on a uniaxial stress state, there is no default; you must indicate your choice of the method for computing the initial constitutive thickness. See Specifying the constitutive thickness for details. Abaqus calculates the thickness direction automatically based on the midsurface of the element. Input File Usage COHESIVE SECTION Abaqus/CAE Usage Property module: Create Section: select Other as the section Category and Cohesive as the section Type Element-based loadingDistributed loadsDistributed loads are specified as described in Distributed loads. *dload
Surface-based loadingDistributed loadsSurface-based distributed loads are specified as described in Distributed loads. *dsload
Element outputStress, strain, and other tensor components available for output depend on whether the cohesive elements are used to model adhesive joints, gaskets, or delamination problems. You indicate the intended usage of the cohesive elements by choosing an appropriate response type when defining the section properties of these elements. The available response types are discussed in Defining the constitutive response of cohesive elements using a continuum approach and Defining the constitutive response of cohesive elements using a traction-separation description. Cohesive elements using a continuum responseStress and other tensors (including strain tensors) are available for elements with continuum response. Both the stress tensor and the strain tensor contain true values. For the constitutive calculations using a continuum response, only the direct through-thickness and the transverse shear strains are assumed to be nonzero. All the other strain components (i.e., the membrane strains) are assumed to be zero (see Modeling of an adhesive layer of finite thickness for details). All tensors have the same number of components. For example, the stress components are as follows:
Cohesive elements using a uniaxial stress stateStress and other tensors (including strain tensors) are available for cohesive elements with uniaxial stress response. Both the stress tensor and the strain tensor contain true values. For the constitutive calculations using a uniaxial stress response, only the direct through-thickness stress is assumed to be nonzero. All the other stress components (i.e., the membrane and transverse shear stresses) are assumed to be zero (see Modeling of gaskets and/or small adhesive patches for details). All tensors have the same number of components. For example, the stress components are as follows:
Cohesive elements using a traction-separation responseStress and other tensors (including strain tensors) are available for elements with traction-separation response. Both the stress tensor and the strain tensor contain nominal values. The output variables E, LE, and NE all contain the nominal strain when the response of cohesive elements is defined in terms of traction versus separation. All tensors have the same number of components. For example, the stress components are as follows:
Node ordering and face numbering on elements
Numbering of integration points for output
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