| Section 3.1 | Parallel ordering for the direct sparse solver |
| Section 3.2 | Thread parallel element and contact search calculations for implicit dynamic analyses |
| Section 3.3 | Thread parallel element operations for quasi-static analyses |
| Section 3.5 | Enhanced support for translation of Nastran bulk data files |
| Section 4.15 | Enhancements to distributions of orientations |
| Section 5.2 | Model import from ANSYS input files |
| Section 6.3 | Abaqus/CFD to Abaqus/Standard or to Abaqus/Explicit co-simulation |
| Section 6.4 | Iterative equation solver |
| Section 6.5 | Dynamics enhancements |
| Section 6.6 | Contour integral evaluation improvements |
| Section 6.7 | Continued development of the XFEM-based crack propagation capability |
| Section 6.8 | Enhancements in Abaqus/Standard to Abaqus/Explicit co-simulation |
| Section 6.9 | Global damping and damping controls in matrix and substructure generation procedures |
| Section 6.10 | Damping controls in substructure property definition |
| Section 6.11 | Improved integration scheme in random response analysis |
| Section 6.12 | Use of arbitrary dynamic modes for substructure generation |
| Section 6.13 | Enhancements to coupled structural-acoustic analysis |
| Section 6.14 | Enhancements to steady-state dynamics user interface |
| Section 6.15 | Direct cyclic analysis in Abaqus/CAE |
| Section 6.16 | AMS eigensolver performance improvements |
| Section 6.17 | Random response analysis based on the SIM architecture |
| Section 6.18 | Submodeling based on the driven nodes only found lying within the global model |
| Section 6.19 | Enhancements to the geostatic procedure |
| Section 6.20 | Enhancements to complex eigenvalue extraction analysis |
| Section 6.21 | Enhancement to the geostatic and soils consolidation capabilities to model coupled heat transfer |
| Section 7.5 | Transferring results with concrete damaged plasticity |
| Section 7.6 | Finite-strain viscoelasticity |
| Section 7.7 | Finite-strain viscoelasticity with Mullins effect |
| Section 7.8 | Field expansion |
| Section 7.9 | Viscous dissipation in a coupled analysis |
| Section 7.12 | Johnson-Cook plasticity in Abaqus/Standard |
| Section 7.13 | Enhancements to Johnson-Cook strain rate dependence |
| Section 7.14 | Tension cutoff |
| Section 8.2 | Coupled temperature–pore pressure elements in Abaqus/Standard |
| Section 9.3 | Reading nodal output for temperature, normalized concentration, and electric potential from an output database into predefined field variables |
| Section 9.5 | Enhancements to initial conditions |
| Section 11.3 | General contact performance |
| Section 11.4 | General contact diagnostics |
| Section 11.5 | Visualizing initial strain-free adjustments |
| Section 11.6 | User-specified interference fit distance and user-specified initial clearance distance for general contact |
| Section 11.7 | Contact stabilization controls for general contact |
| Section 11.10 | User-defined range for which contact opening output is provided |
| Section 11.11 | Smooth transition of the allowable elastic slip |
| Section 11.12 | Midface node no longer added for “serendipity” elements involved in surface-to-surface contact pairs |
| Section 11.13 | Controlling smoothness of the redistribution of contact forces upon sliding for surface-to-surface contact |
| Section 11.15 | Progressive viewfactor calculation |
| Section 13.1 | Element nodal forces in beam section orientations |
| Section 13.2 | PSD and RMS Mises stress contour and history plots from random response analysis |
| Section 13.3 | Enhancements to output from direct steady-state dynamic analysis |
| Section 13.8 | Combining data from multiple output databases |
| Section 13.12 | Field output for connectors |
| Section 14.1 | Define viscous and structural matrices via user subroutine UINTER |
| Section 14.4 | Utility routines to obtain parallel processes information |