SIMULIA Overview: Accelerating Innovation with Realistic Simulation
SIMULIA Overview Agenda SIMULIA Mission & Brand Position SIMULIA Product Portfolio Industry Examples Summary 2
SIMULIA Vision To Make. Realistic Simulation an integral business practice
Realistic Simulation is The use of Unified FEA, multiphysics and scientifically based simulation to understand how products will perform in life Courtesy BMW AG Reduce physical prototypes Increase confidence in product performance Accelerate design decisions Gain knowledge of real-world behavior Lifelike Experience through Simulation
SIMULIA Today Brand headquarters in Providence, RI 300+ in RI, 800+ Worldwide 40+ regional offices and representatives Dedicated to: High-quality support Innovative technology Robust product quality Providence Cincinnati Fremont Cary Santa Monica Velizy Chennai 5
SIMULIA in the Benelux Office located in Maarssen Responsible for support and consultancy Strong technical team 6
SIMULIA Overview Agenda SIMULIA Mission & Brand Position SIMULIA Product Portfolio Industry Examples Summary 7
Abaqus positioning versus Pro/MECHANICA Customer with Pro/MECHANICA and Abaqus Technology So ophistication Pro/MECHANICA Analysis Design Simulation for Pro/ENGINEER Users Abaqus Finite Element Analysis Industry Standard for Advanced FEA Designers Engineer CAE Specialist
Abaqus for Advanced Analysis Comprehensive FEA Solver Technology Complete linear & nonlinear analyses New CFD capability Complex materials Rubbers, plastics, powder metals, human tissue, soil, composites Sophisticated contact, fracture, & failure Crack, impact and crash events High-performance solvers Utilize to 128 cores for rapid turnaround Powerful model prep and results interpretation Automation tools for customization of standard workflows
SIMULIA Multiphysics Connects multiple tools and different physics High performance coupling framework supports SIMULIA physics or 3 rd party Simultaneous solution of multiple physics Fluid-Mechanical, Piezoelectric-Mechanical, Structural-Acoustic, Electrical-Thermal, Thermal-Mechanical, Thermal-Fluid- Mechanical, Structural-Pore Pressure Partner ecosystem to provide a broad range of solution options 10
Current Expert SIMULIA Products Interactive Products ABAQUS/CAE FE Modeling, Pre & Post processing ABAQUS for CATIA V5 Provides access to advanced ABAQUSbased FE modeling within CATIA V5 environment Analysis Products ABAQUS/Standard Analysis technology to solve traditional implicit finite element analyses, such as static, dynamics, thermal, all powered with the widest range of contact and nonlinear material ABAQUS/Explicit Analysis technology focused on transient dynamics and quasi-static analyses using an explicit approach appropriate in many applications ABAQUS/CFD Incompressible pressure based solver with turbulence models An integrated suite of software to provide powerful real-world simulation throughout the product lifecycle
Associative CAD Interfaces Pro/ENGINEER bidirectional Associative Interface is now Movie can be seen at the booth! Abaqus/CAE can update Pro/ENGINEER parameters directly Geometry/Assembly and parameter file Updated parameter file Pro/ENGINEER Abaqus/CAE 12
Geometry Import Associative import Pro/ENGINEER CATIA Solidworks NX Abaqus/CAE 13
SIMULIA Overview Agenda Dassault Systèmes Overview SIMULIA Mission & Brand Position SIMULIA Product Portfolio Industry Examples SIMULIA Solutions for Wind Energy Drop testing with Abaqus/Explicit Summary 14
SIMULIA Solutions for Wind Energy Drive Train Courtesy: LM Glasfiber Towers & Foundations Composite Blades Wind Turbine Assemblies Courtesy: DNV Wind Energy
Composite Wind Turbine Blades Ply-based Pre- and post-processing in Abaqus/CAE 16
Composite Wind Turbine Blades Fracture and Failure Simulation with Abaqus Failure simulation techniques VCCT Cohesive elements and surfaces Damage initiation and evolution Static or Dynamic failure modes Debonding/Delamination Impact and collisions Barely visible impact damage 17
Drop Testing with Abaqus/Explicit
Electronics Drop Customers Motorola Utilizing Abaqus' 10-Node Modified Tet for Analyzing Impact Problems Involving Thin-walled Structures, Diehl & Carroll AUC 2000 Two Step Method of Analyzing Hyperextension Problems with Large Contact Interactions Using Abaqus/Explicit, Nagaraj AUC2002 A Novel Technique For Modeling Solder Joint Failure During System Level Drop Simulations, Carroll, Bates, Zampino & Jones itherm 2006 Nokia "Evolution of Mobile Phone Drop Test Simulation at Nokia," Theman, Poskiparta AUC 2005 "Fatigue Analysis and Optimization of Flexible Printed Circuits," Ptchelintsev AUC 2006 "Abaqus High Performance Computing Environment at Nokia," Korpela AUC 2007 Numerous other customers simulating drop tests for: Laptops, computer peripherals, cameras, circuit boards, components, associated packaging, etc 19
Geometry Repair, Defeaturing, and Meshing
Automation Assembly batch mesher 21
Automation Free-fall animation generator 22
SIMULIA Overview Agenda Dassault Systèmes Overview SIMULIA Mission & Brand Position SIMULIA Product Portfolio Industry Examples Summary 23
SIMULIA s Solutions Your Competitive Advantage High-value Realistic Simulation solutions to accelerate innovation Focus on customer satisfaction High-quality products, services, and support Meet us at our booth! 24