Abaqus/Explicit

Section 5.1

Defining a local coordinate system for materials in Eulerian elements

Section 5.3

SIMULIA Co-Simulation Engine API availability

Section 5.4

Enhancement to adaptive mesh refinement

Section 5.6

Parallel enhancement for DEM analysis

Section 5.7

Enhancements to CZone for Abaqus for composite crush simulation

Section 5.8

Vehicle ride comfort and durability co-simulation

Section 5.9

Logical-Physical co-simulation using Abaqus and Dymola

Section 5.10

Enhancements to the SIMULIA Co-Simulation Engine

Section 5.11

Enhancements for co-simulation

Section 5.12

MpCCI connector to the SIMULIA Co-Simulation Engine

Section 6.1

Enhancements to parallel rheological framework

Section 6.2

Eulerian elements with anisotropic materials

Section 8.1

Initial conditions on damage initiation

Section 9.1

New attachment method for mesh-independent fasteners

Section 9.2

Enhanced domain decomposition of thermal ties

Section 10.2

Improved contact at complex intersections in Abaqus/Explicit

Section 11.3

User control of domain decomposition

Section 11.4

Job execution control enhancements

Section 11.5

SIM database utilities

Section 12.1

Writing results from an Abaqus analysis to a SIM database

Section 12.5

Magnitude output of vector nodal variables

Section 12.6

Equivalent plastic strain rate

Section 12.7

Principal stresses with bounding values for output field filtering

Section 13.1

VEXTERNALDB: User subroutine that gives control to the user at key moments of the analysis

Section 13.2

VUCHARLENGTH: User subroutine to define the characteristic element length at a material point

Section 13.3

Enhancements to user subroutine UMAT

Section 13.4

Allocatable arrays

Section 13.5

Parallel user subroutines