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DS Simulia Abaqus FEA is a software suite for finite element analysis and computer-aided engineering. Abaqus is used in the automotive, aerospace, and industrial products industries. The product is popular with academic and research institutions due to the wide material modeling capability, and the program's ability to be customized. Abaqus also provides a good collection of multiphysics capabilities, such as coupled acoustic-structural, piezoelectric, and structural-pore capabilities, making it attractive for production-level simulations where multiple fields need to be coupled.

Buy DS Simulia Abaqus 2017 HF2 x64 $65
DS Simulia Abaqus 2016 HF4 x64 $65
Abaqus 6.14-5 x64 $60
Abaqus 6.14-1 x64 $50

 

The Abaqus Unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications. In the automotive industry engineering work groups are able to consider full vehicle loads, dynamic vibration, multibody systems, impact/crash, nonlinear static, thermal coupling, and acoustic-structural coupling using a common model data structure and integrated solver technology. Best-in-class companies are taking advantage of Abaqus Unified FEA to consolidate their processes and tools, reduce costs and inefficiencies, and gain a competitive advantage.

Product simulation is often performed today by engineering groups using niche simulation tools from different vendors to simulate various design attributes. The use of multiple vendor software products creates inefficiencies and increases costs. SIMULIA delivers a scalable suite of unified analysis products that allow all users, regardless of their simulation expertise or domain focus, to collaborate and seamlessly share simulation data and approved methods without loss of information fidelity.

The Abaqus Unified FEA product suite offers powerful and complete solutions for both routine and sophisticated engineering problems covering a vast spectrum of industrial applications. For example, in the automotive industry engineering work groups can consider full vehicle loads, dynamic vibration, multibody systems, impact/crash, nonlinear static, thermal coupling, and acoustic-structural coupling using a common model data structure and integrated solver technology. Best-in-class companies are taking advantage of Abaqus Unified FEA to consolidate their processes and tools, reduce costs and inefficiencies, and gain a competitive advantage.

Abaqus 2016 - Unified FEA Products

Abaqus/CAE
Abaqus/Standard
Abaqus/Explicit
Abaqus/CFD
Enhancements:

Enhanced Contact

Advances in Abaqus/Standard general contact
Improved heuristics for automatically transitioning between different contact formulations can significantly improve convergence behavior in Abaqus/Standard
New vertex-to-surface supplementary formulation improves contact behavior at convex corners.
Introducing Linearized contact
Efficiently address problems where the only source of nonlinearity is frictionless small sliding contact
Works best for small & medium size problems.
Initially available from select 3DEXPERIENCE applications
Updated Contact Output for Abaqus/Explicit
Now Abaqus Standard family of output variables, including CDISP, CTANDIR, CSTATUS and slip rate variables.
CAD-enhanced contact
Geometric correction technique has been extended to more general surface shapes
Provides both accuracy and robustness benefits
Initially available from select 3DEXPERIENCE applications

Enhanced Materials and Elements

Expanded element library
Pyramid element for stress analysis for compatible transition between tet and hex mesh
Multiphysics elements
Coupled temperature-displacement (CTD)
Coupled pore pressure-displacement (CPD)
Coupled pore pressure-temperature-displacement (CPTD)
Fluid pipe/connector elements based on Bernoulli’s equation can model 1D fluid flow.
Valid for incompressible steady-state conditions
Pressure, flow rate, & gravity loading
Can model losses arising from friction & pipe joints
Can couple with 3D pore pressure elements
Rigid body rotation of tied solid surfaces
Abaqus/Standard will by default account for rotations of offsets in solid mesh ties
Material modeling enhancements
Rate dependent nonlinear kinematic hardening plasticity
Orthotropic clay plasticity for geomechanics applications
Import of Johnson Cook plasticity for spring back after high rate impact events
GPU Acceleration of AMS
GPU Acceleration of the modal frequency response solver
Tracer particles for CEL
Tracer particles follow the material motion in CEL simulations and allow extraction of material point results
DEM particle generation
Particle generation can now be based on:
Evolving inlet surfaces
User-specified size distribution
User-specified mass flow rate
User-specified inlet velocity
Improved treatment of SPH boundaries
Introduction of virtual particles improves accuracy of SPH wall conditions.
Uniform grid SPH particle generation
Generating SPH particles based on uniform background grid instead of parent element can improve accuracy of results.
Model instancing
Connectors, connector sections, and contact interactions are now copied from instanced models
Generate cohesive elements through Mesh Edit tool
Select geometry faces or element sets/surfaces
Creates sets for newly created nodes/elements
Mid-side node placement
New plug-in available in the Mesh Module
Selection based on sets, surfaces, or viewport picking
Undo/Redo enabled

DS Simulia fe-safe is the technical leader in fatigue analysis software for Finite Element models and is capable of meeting its users’ most demanding applications. It directly interfaces to all leading FEA suites and is used by leading companies in the transport and mobility, aerospace and defense, general manufacturing, power generation, marine and offshore industries worldwide to determine fatigue life and optimize designs. fe-safe is renowned for its accuracy, speed and ease of use.

DS Simulia FE-Safe 2017 HF2 x64 $65
DS Simulia FE-Safe 2016 HF4 x64 $65

 

Industry is putting increasing pressure on manufacturers to use less material to deliver lightweight but stronger components, lower warranty and recall costs and all in less time. Many companies use advanced finite element analysis to calculate design stresses, but the fatigue analysis is often still done by manually picking stress points for spreadsheet analysis. This is time-consuming and unreliable because it is easy to miss failure locations.

The fe-safe suite of software is the world’s leading technology for durability analysis from FEA, directly interfacing to all major FEA suites (Abaqus, ANSYS, Nastran (MSC, NEi , NX), Pro/Mechanica) and its capabilities have been developed to meet the most demanding industry applications.

fe-safe was the first commercially available fatigue analysis software to focus on modern multiaxial strain-based fatigue methods and it continues to set the benchmark for fatigue analysis software.

fe-safe is included in Extended Packaging, allowing unified access to all solution technologies within the portfolio through a single token pool.

The fe-safe suite provides:

fe-safe: Accurate, reliable multiaxial fatigue analysis, regardless of the complexity of your loadings and model
fe-safe/Rubber: Unique, leading-edge technology for the fatigue analysis of elastomers
Verity Module in fe-safe: The original, patented Verity® Structural Stress Method for seam, structural and spot welded joints
fe-safe/TURBOlife: Thermomechanical fatigue analysis with unique capabilities for creep-fatigue interaction
Smooth workflow between the SIMULIA portfolio of products: Abaqus, Isight and Tosca

Regardless of the complexity of your fatigue analysis, fe-safe fits smoothly into your design process, enabling you to develop products that are designed for durability.

DS SIMULIA TOSCA TOSCA Fluid is so far the only available system for topology optimization of channel flow problems. Starting from an initial design space, an optimized design of a flow channel is determined automatically by TOSCA Fluid. With only one CFD solver run an optimized structure with e.g. significantly reduced pressure drop or homogeneous flow is derived. This allows for the first time an economic topology optimization of industrial large scale flow applicatons.

DS Simulia TOSCA (Fluid/Structure/Docs) 2017 HF2 x64 $65
DS Simulia TOSCA (Fluid/Structure/Docs) 2016 HF4 x64 $65

 

Tosca - The Optimization Suite

Today’s engineers aspire to develop innovative products in the shortest development time possible. Lightweight design, safety, comfort, performance, efficiency, and durability are just some of the aspects to take into account.

As leading technologies for structural optimization and flow optimization, both Tosca Structure and Tosca Fluid offer efficient optimization based on industry standard FEA (Abaqus, ANSYS, MSC Nastran) and CFD software (STAR-CCM+ and ANSYS Fluent).

The Tosca optimization suite enables engineers to take full advantage of any improvement potential while leveraging advanced simulation capabilities. It creates optimized design concepts to achieve the highest performance, quality, and eco-efficiency in a shorter development time.

Engineers have to develop innovative products in the shortest development time possible. Lightweight design, safety, comfort, performance, efficiency, and durability are some of the manifold requirements that have to be considered.

Design Concept

Design Concepts in a Virtual Product Development
The product development costs are mainly determined in the early concept phase. The automatic generation of optimized design proposals will reduce the number of product development cycles and the number of physical prototypes. The product performance is increased and the development costs are significantly reduced. Starting with the definition of the maximum allowed design space, Tosca helps you to find the design that fits the design space and considers all product requirements.

Design Improvement

Simulation-Driven Design Improvement
Existing designs often only need small changes to improve the overall product performance. Using Tosca Structure’s optimization methods the relevant product requirements can be taken into account. Design improvements are realized in a shorter development time.

The Tosca optimization suite enhances SIMULIA’s realistic simulation applications by creating sustainable, reliable, and innovative designs in a faster development time.

Fast

Accelerated Product Development Time
Enhance existing CAE environments

Seamless integration with leading FEA and CFD solvers
Direct use of existing simulation input files
Full optimization potential without time-consuming model parameterizations
Easy setup of the optimization task

Direct use of existing knowledge and simulation models
Intuitive – minimal training is required
Choice of intuitive graphical user interfaces
Full design flexibility, without time-consuming parameterization
Reduced time-to-market

Fewer prototypes and physical tests
Faster turnaround from analysis to design/manufacturing
Automatic validation of topology optimization results possible
Shortened development cycles with optimization in an early phase
Manufacturing process constraints can be applied
Direct data transfer to CAD systems
Reliable

DS Simulia Isight & the SIMULIA Execution Engine Process automation and design exploration.

DS Simulia Isight 2017 HF2 x64 $65
DS Simulia Isight 2016 HF4 x64 $65

 

Isight & SEE Overview

In today’s complex product development and manufacturing environment, designers and engineers are using a wide range of software tools to design and simulate their products. Often, chained simulation process flows are required in which the parameters and results from one software package are needed as inputs to another package and the manual process of entering the required data can reduce efficiency, slow product development, and introduce errors in modeling and simulation assumptions. SIMULIA provides market-leading solutions that improve the process of leveraging the power of various software packages. Isight and the SIMULIA Execution Engine (formerly Fiper) are used to combine multiple cross-disciplinary models and applications together in a simulation process flow, automate their execution across distributed compute resources, explore the resulting design space, and identify the optimal design parameters subject to required constraints.

Our proven simulation automation and optimization solutions enable engineering teams to:

Drastically reduce design cycle time through integrating workflow processes in an automated environment.
Deliver more reliable, better-quality products through accelerated evaluation of design alternatives.
Lower hardware investments through effective use of legacy systems and more efficient job distribution.
Eliminate the bottlenecks of ineffective communication by enabling secure design collaboration among partners.

Simpack is a general purpose Multibody Simulation (MBS) software used for the dynamic analysis of any mechanical or mechatronic system. It enables engineers to generate and solve virtual 3D models in order to predict and visualize motion, coupling forces and stresses.

DS Simulia (ex-INTEC) Simpack 2017 x64 $65
DS Simulia Simpack 9.10 x64 $65

 

Where can Simpack be used?
Simpack is used primarily within the automotive, engine, HiL/SiL, power transmission, railway, and wind energy industrial sectors, but can be applied to any branch of mechanical engineering.

What are the main advantages of Simpack?
Simpack simulation software is particularly well-suited to high frequency transient analyses, even into the acoustic range. Simpack was primarily developed to handle complex non-linear models with flexible bodies and harsh shock contact.