Inventor Nastran - Mechanical and structural simulation

4.0
2 opiniones
  • This course was very interesting and helpful. Thanks!
    |
  • Some times speaker is describing software settings too far ahead of what is shown on screen. Would be nice to have a single zip file to download all resources, at the introduction.
    |

Training

En línea

$ 1001-2000

Descripción

  • Tipología

    Training

  • Metodología

    En línea

  • Horas lectivas

    10h

  • Inicio

    Fechas disponibles

Would you like to learn more about simulation? Are you ready to embark in a new adventure?
Emagister presents to you the Inventor Nastran - Mechanical and structural simulation training endorsed by AulaGEO Academy.

Autodesk Inventor Nastran is a powerful and numerical simulation program for engineering problems. It is a solution engine for the finite element method, well recognized in structural mechanics.
And there is no need to mention the great power that Inventor gives us for mechanical design.

During this course you will learn the typical workflow for the design and simulation of mechanical parts. You will receive a simple and compressible introduction to the theoretical aspects of simulation. This way you can develop criteria and understand the reasons for the parameters that you will find in the program.

You will start from the simplest to the most complex, starting with elastic and linear analyzes of mechanical parts. After overcoming the basic concepts, you will enter the world of nonlinear analysis, where many practical problems must be solved. Next, you will move on to dynamic analysis, where we will discuss various types of studies used in practice, including fatigue analysis. And lastly, we will look at coupled heat transfer studies.

If you want to learn more information about this programme, do not hesitate to contact AulaGEO Academy through Emagister.co.uk

Precisiones importantes

¿Qué objetivos tiene esta formación?: "Create performance simulations of mechanical parts
Understand the concepts related to numerical simulation using finite elements
Understand the workflow in Autodesk Inventor Nastran
Create static simulations of mechanical problems
Create nonlinear behavior analysis in mechanics
Understand the various types of nonlinearity
Create dynamic and vibration analysis on mechanical parts
Conduct fatigue studies
Conduct studies involving heat transfer in mechanical parts"

¿Esta formación es para mí?: "Professionals related to the creation of parts and prototypes
Mechanical Parts Designers
Mechanical engineers
Autodesk Inventor users who want to expand their domain in simulation within the software"

Requisitos: Previous mastery of the Autodesk Inventor environment

Sedes y fechas disponibles

Ubicación

Inicio

Online

Inicio

Fechas disponibles Inscripciones abiertas

Opiniones

4.0
fantástico
100%
4.3
fantástico

Valoración del curso

Lo recomiendan

Valoración del Centro

Michael T. Murphy

13/09/2020
Sobre el curso: This course was very interesting and helpful. Thanks!
Curso realizado: Septiembre 2020
¿Recomendarías este centro?:

Jess Preston

14/09/2020
Sobre el curso: Some times speaker is describing software settings too far ahead of what is shown on screen. Would be nice to have a single zip file to download all resources, at the introduction.
Curso realizado: Septiembre 2020
¿Recomendarías este centro?:
*Todas las opiniones recolectadas por Emagister & iAgora han sido verificadas

Materias

  • Workflow
  • finite
  • Mechanical Engineering
  • Design
  • Construction
  • Heat Transfer
  • Simulation
  • Autodesk
  • CAD 3D
  • CAD Engineering
  • CAD
  • Engineering
  • Modeling
  • Operation
  • Capture
  • Numerical Simulation
  • Mechanical simulation
  • Inventor Nastran
  • Nastran
  • Inventor
  • Finite
  • Autodesk workflow
  • Meshing
  • Dynamic Analisys

Programa académico

"Introduction
Introduction to Autodesk Inventor Nastran
Design capabilities in software
Basic concepts
Fundamentals of finite element analysis
Typical workflow
Idealizations
Exercise - Cantilever Beam
Cantilever beam verification
User interface
Exercise - Cast Lever
Exercise - Modifying edge conditions
Mesh
Mesh settings
Meshing and convergence
Exercise - Refine the mesh
Model contacts
Exercise - Adding contacts and symmetry
Analysis settings
Viewing results
Compare iterations
Uniqueness of tensions
Nonlinear problem analysis
Linear and nonlinear analysis
Geometric nonlinearity
Material non-linearity
Nonlinearity of edge conditions
Nonlinearity by element type
General rules for nonlinear analysis
Exercise - Flat walled tank
Exercise - Snap-through-back
Nonlinear transient analysis
Preparation for impact analysis
Exercise - Ball Impact
Exercise - AIA (Automatic Impact Analysis)
Nonlinear materials
Exercise - Flex Test
Dynamic problem analysis
Dynamic analysis
Modal frequency analysis
Exercise - Modal analysis
Exercise - Frequency response
Exercise - Random answer
Exercise - Transient response
Damping in dynamic analysis
Exercise - Fatigue Analysis
Heat transfer problem analysis
Thermal analysis
Exercise - Stationary Heat Transfer
Exercise - Thermal Stress
conclusion
Farewell"

Inventor Nastran - Mechanical and structural simulation

$ 1001-2000