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Anketa – výběr školení Simulia





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 1 – Introduction to Abaqus/Standard and Abaqus/Explicit
 2 – Introduction to Abaqus/CAE
 3 – Introduction to Abaqus Scripting
 4 – Heat Transfer and Thermal-Stress Analysis with Abaqus
 5 – Linear Dynamics with Abaqus
 6 – Analysis of Composite Materials with Abaqus
 7 – Abaqus/Explicit: Advanced Topics
 8 – Abaqus/CAE: Geometry Import and Meshing
 9 – Obtaining a Convergenced Solution with Abaqus
 10 – Flexible Multibody Systems with Abaqus
 11 – Substructures and Submodeling with Abaqus
 12 – Modeling Rubber and Viscoelasticity with Abaqus
 13 – Automotive NVH with Abaqus
 14 – Non-parametric Optimization with Abaqus
 15 – Optimization with Tosca Structure
 16 – Modern Metal Fatigue Analysis
 17 – Practical fe-safe Training

Název školení délka trvání(dny) Popis školení Bližší informace
1 Introduction to Abaqus/Standard and Abaqus/Explicit 3 This course provides a comprehensive introduction to the analysis capabilities of Abaqus/Standard and Abaqus/Explicit. You will learn how to create nonlinear structural finite element simulations using Abaqus keywords, submit an input (.inp) file, and evaluate simulation results. Info
2 Introduction to Abaqus/CAE 2 Abaqus/CAE provides a complete interactive environment for creating Abaqus models, submitting and monitoring analysis jobs, and viewing simulation results. This course provides a comprehensive overview of the features available in Abaqus/CAE. Info
3 Introduction to Abaqus Scripting 2 Learn how to use Python and the Abaqus Scripting Interface (ASI) to automate tasks that are common to most analysts (model generation, job submission, job monitoring, results visualization, etc.). Info
4 Heat Transfer and Thermal-Stress Analysis with Abaqus 2 This course introduces the heat transfer and coupled thermal-stress analysis capabilities available in Abaqus including steady-state and transient heat transfer, cavity radiation, latent heat effects, and fully coupled thermal-stress analyses. Info
5 Linear Dynamics with Abaqus 2 This course introduces the algorithms and methods used to study linear dynamic problems with Abaqus/Standard including natural frequency extraction and mode-based transient, steady-state, response spectrum and random response analyses. Info
6 Analysis of Composite Materials with Abaqus 3 This course provides in-depth coverage of the composite material modeling capabilities in Abaqus including sandwich composite modeling, stiffened composite panels, composite layups using Abaqus/CAE, composite damage, failure, delamination and more. Info
7 Abaqus/Explicit: Advanced Topics 3 Learn practical skills and best practices for performing dynamic and quasi-static analyses with Abaqus/Explicit including general contact, mass scaling, adaptive meshing, output filtering, material failure, and more. Info
8 Abaqus/CAE: Geometry Import and Meshing 2 Learn how to use advanced Abaqus/CAE capabilities for working with complex geometry including CAD geometry import, geometry repair, and advanced strategies partitioning and meshing. Info
9 Obtaining a Convergenced Solution with Abaqus 2 Learn techniques and best practices for solving for highly nonlinear simulations using Abaqus including simulations involving contact, complicated material models and/or geometrically unstable behavior. Info
10 Flexible Multibody Systems with Abaqus 2 Comparison of connectors and MPCs, Basic connector components, Assembled kinematic connections, Local relative displacements and rotations, Defining stops and locks, Defining connector friction, connector failure, Actuating components of relative motion, Sensors and actuators, Output and postprocessing Info
11 Substructures and Submodeling with Abaqus 2 Learn to use substructures and submodeling in Abaqus to more efficiently analyze large and complex models. Info
12 Modeling Rubber and Viscoelasticity with Abaqus 2 Materials such as rubber and resilient foam are commonly modeled as nonlinear elastic. Learn how to model the large-strain elasticity of rubber and foam within Abaqus.
– Use experimental test data to calculate material constants
– Check the stability of the Abaqus material model at extreme strains
– Obtain the best possible material constants from the available test data
– Select elements for modeling rubber and foams
– Design an appropriate finite element mesh
– Model viscoelastic behavior in both the time and frequency domain
– Use a user subroutine to define the hyperelastic behavior „
Info
13 Automotive NVH with Abaqus 2 This course focuses on the application of the linear dynamics capabilities in Abaqus to vehicle NVH (Noise, Vibration and Harshness) simulations; topics covered include non-linear preloading, substructures, structural-acoustic coupling for sound radiation simulations, complex eigenvalue extraction for break sequel simulations, and advanced NVH postprocessing using provided plug-ins.  – Perform natural frequency extractions- Perform sound radiation analyses (acoustics)
– Include nonlinear preloading effects in your NVH simulations
– Perform Brake squeal analyses
– Create constraints and connections for Automotive NVH models
– Use substructuring techniques to run your NVH simulations more   efficiently
– Perform advanced NVH postprocessing (via plug-ins) „
Info
14 Non-parametric Optimization with Abaqus 1 The objective of this seminar is to introduce users to the non-parametric optimization capabilities available in “Tosca for Abaqus.”                           – Apply topology, shape and sizing optimization techniques to your designs and produce lightweight, strong and durable components- Reduce iterations of designs
– Use the optimization interface in Abaqus/CAE for setup, execution,   monitoring and postprocessing of topology, shape and sizing shape optimization problems
– Use Tosca’s structural optimization capability for highly nonlinear problems „
Info
15 Optimization with Tosca Structure 2 This course is a comprehensive introduction to the structural optimization capabilities of Tosca Structure. Including optimization in the product design cycle allows the user to accelerate and improve the reliable design of lightweight, rigid and durable components and systems.                                                                                                                      – Understand methods of structural optimization with Tosca Structure, including techniques for solving fundamental topology, shape, sizing and bead optimization problems. Info
16 Modern Metal Fatigue Analysis 2 This seminar provides an introduction to modern theories of metal fatigue and their practical application through worked examples and interaction/discussion. There is a strong emphasis on what is possible and the pitfalls to avoid. Info
17 Practical fe-safe Training 2 In this practical introduction to fe-safe® you will learn how to set up and run various fatigue analyses using fe-safe®. The course includes many hands-on tutorials and practical examples. Info