nx nastran advanced simulation solutions
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NX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation Solutions
Location : I-VTech Solutions Duration : 4 Days
NX NASTRAN Advanced Simulation Solutions Training cover’s different types of NASTARN solution such as
Advanced Simulation Solutions covers applications of various analysis types, contact analysis, durability, and optimization.
Many important features of NX Nastran are illustrated with numerous example problems. NX Nastran data structure
and element library, modeling practices, model debugging and guidelines for efficient solutions are discussed.
The NX NASTARN Advanced Simulation Solutions covers the following Topics:
• CAE Engineers
• CAE Specialists
• Analysts
• System managers
• Design Engineers .
• Student Guide
• Work Book
• Linear static analysis
• Modal analysis
• Thermal analysis
• Buckling analysis
• Contact and gluing
• Symmetry
• Durability (fatigue) analysis
• Optimization
• Nonlinear statics analysis
• Import and export of model data
• Templates
SIEMENS UGS NX NASTARN Training SIEMENS UGS NX NASTARN Training SIEMENS UGS NX NASTARN Training
Who Should Attend
Provided Course Materials
Course Overview
· NX Basic Design and NX NASTRAN
Advanced Simulation Process
Prerequisites
• Jasmine (Tel: 6484 8863) email: [email protected]
• Logesh (Tel: 6484 8863) email: [email protected]
For enquiries, please call:
II--VTech VTech Solutions Pte Ltd Solutions Pte Ltd www.innowww.inno--venture.com venture.com
Singapore - Blk 5012 Ang Mo Kio Avenue 5 #04-11 Techplace II Singapore 569876 Tel : 65-6484 8863 Fax : 65-6484 8861
JB - Suite 301 Level 3 Bangunan Ang No. 1 Jalan Jeram Taman Tasek 80200 Johor Bahru Tel : 607-2323 863 Fax : 607-2323 861 Penang - 18-35-C Menara Gurney Persiaran Gurney 10250 Penang Tel : 604-2289 863 Fax : 604-2289 861
Course Syllabus Course Syllabus Course Syllabus
Linear static analysis • Linear static analysis introduction
• Linear static analysis assumptions
• Supported linear static analysis types
• Understanding the linear static solver capabilities
• Using elements for a linear static analysis
• Using materials for a linear static analysis
• Defining boundary conditions for a linear static analysis
• Setting linear static solution attributes
• Using the iterative solver
• Reviewing linear static results
• Summary
Modal analysis • Modal analysis introduction
• How stiffness and mass affect frequency
• Supported modal analysis types
• Using elements for a modal analysis
• Using materials for a modal analysis
• Defining boundary conditions for a modal analysis
• Modal pre-stress
• Setting modal solution attributes
• Rigid body modes
• Reviewing modal analysis results
• Animating mode shapes
• Activity
• Summary
NX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation Solutions
Day 1
Thermal analysis
Thermal analysis
• Thermal analysis introduction
• Supported thermal analysis types
• Using elements for a thermal analysis
• Using materials for a thermal analysis
• Thermal material properties
• Defining boundary conditions for a thermal analysis
• Setting thermal solution attributes
• Reviewing thermal analysis results
• Reviewing thermal results
• Thermal stresses and strains
• Thermal stress analysis
• Understanding a preload
• Activity
• Summary
Day 1
Course Syllabus Course Syllabus Course Syllabus
Day 2
Surface-to-surface contact and gluing
• Simulation objects
• Surface-to-surface contact
• Define surface-to-surface contact with automatic pairing
• Automatic face pairing
• Automatic face pairing example
• Understanding the contact solution
• Contact solution attributes
• Convergence and chattering
• Singularity
• Surface-to-surface gluing
• Define surface-to-surface gluing
• Contact solve monitor
• Activities
• Summary
Day 2
Flow Analysis • Flow Analysis Introduction
• Flow Analysis Assumptions
• Fluid Domine creation using ST
• Fluid Domine Meshing
• Using materials for a Flow analysis
• Defining boundary conditions for a Flow analysis
• Steady state flow
• Setting Flow solution attributes
• Reviewing Flow analysis results
• Activity
• Summary
Buckling analysis • Buckling analysis introduction
• Linear buckling assumptions
• Linear buckling formulation
• Supported buckling analysis types
• Using elements for a buckling analysis
• Using materials for a buckling analysis
• Defining boundary conditions for a buckling analysis
• Setting buckling solution attributes
• Reviewing buckling analysis results
• Activity
• Summary
NX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation Solutions
Course Syllabus Course Syllabus Course Syllabus
Day 3
Optimization
• Optimization overview
• The optimization process
• Creating an optimization setup
• Objective
• Constraints
• Design variables
• Solver iterations
• Displaying results
• Activity
• Summary
Day 3
Symmetry • Symmetry overview
• Symmetry types
• Symmetric constraints
• Modeling symmetry using coupled DOFs
• Automatic Coupling
• Axisymmetry
• Aligning the axisymmetric model
• Activity
• Summary
Durability (Fatigue) analysis • Durability analysis introduction
• Durability overview
• Run a durability analysis
• Fatigue material properties
• Durability solution
• Fatigue load variations
• Fatigue results
• Fatigue life
• Fatigue safety factor
• Strength safety factor
• Activity
• Summary
NX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation Solutions
DurabilityDurability
Course Syllabus Course Syllabus Course Syllabus
Day 4
Import and export of model data • Importing model data
• Supported applications for imported data
• Exporting model data
• Supported applications for exporting model data
• Ideas Universal files
• Import and export Ideas Universal files
• Activities
• Summary
Templates
• New file templates overview
• File New tabs
• Standard templates
• Userdefined templates
• Create a new file using a template
• Activity
• Summary
Day 4
Nonlinear static analysis • Supported nonlinear solution types
• Nonlinear static analysis introduction
• Considering material plasticity conditions
• Whether to use a nonlinear solution
• Geometry nonlinear problem
• Using elements for solution type NLSTATIC 106
• Using materials for solution types NLSTATIC 106 and
ADVNL 601,
• 106
• Entering stress/strain data for solution types NLSTATIC
106 and ADVNL
• 601, 106
• Defining boundary conditions for solution types
NLSTATIC 106 and ADVNL
• 601, 106
• Setting solution attributes for solution type NLSTATIC
106 \
• Nonlinear static analysis is an iterative solution
• Incrementing loads using multiple subcases in
NLSTATIC 106
• Example of incrementing loads in NLSTATIC 106
• Viewing plastic strain results for solution types
NLSTATIC 106 and ADVNL
• 601, 106
• Nonlinear analysis resources
• Activities
• Summary
NX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation SolutionsNX NASTRAN Advanced Simulation Solutions