Altair Hyperwork - Modelling - Meshing - Run Solver File
Last updated 4/2019
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 6.12 GB | Duration: 9h 7m
learn with us HyperWorks is an analysis and Optimization Solution
What you'll learn
FEM Theory
Meshing of 1d 2d 3d
Create and set-up Finite element models for analysis
Improve knowledge of meshing
Topology, size, Shape Optimization
learner HyperWork tutorial
learner Hyperwork CFD
Requirements
Basic CAD And 3d modelling
Install latest or old version Altair HyperWork software student Version and licence version
Description
Hyperworks is a complete CAE software made by Altair engineering. It consists all the modules of CAE i.e. modelling, meshing, solver. It is a complete package of finite element procedure. Pre-processing, Solving and Post-processing can be done using Hyperworks.Altair HyperWorks provides the most comprehensive, open-architecture CAE solution in the industry including best-in-class modeling, analysis and optimizatio.HyperWorks line of software, including:OptiStruct - Structural Analysis Solver (linear and non-linear); solution for structural design and optimizationRADIOSS - Structural Analysis Solver (highly non-linear problems under dynamic loadings); an industry standard for automotive crash and impact analysisMotionView - Solver-neutral Multi-body Pre-processorMotionSolve - Multi-body Solver; an integrated solution to analyze and optimize multi-body system performanceHyperXtrude - Metal & Polymer Extrusion Solver; an advanced solver for manufacturing process simulations and validationsHyperForm - Metal Forming SolverHyperMesh, HyperCrash, Simlab, HyperView, HyperGraph - CAE Pre & Post Processing[1]HyperStudy - Design of Experiments and Multi-disciplinary Design OptimizationHyperMath - Mathematical Analysis EnvironmentAcuSolve - General-purpose Finite Element Based CFD SolverFEKO - 3D Electromagnetic Solver
Overview
Section 1: Theory of FEA and CAE
Lecture 1 Introduction
Lecture 2 How to decide element type
Lecture 3 Can we solve same problem using 1-D, 2-D and 3D element
Lecture 4 How to do meshing in critical area
Lecture 5 3d Element
Lecture 6 Minimum element length using in time and crease calculation analysis
Lecture 7 Material and property Information
Section 2: 1D Meshing
Lecture 8 1D Meshing Introduction
Lecture 9 Create Hyper-beam
Lecture 10 Create HyperBeam I Solving the problem usinng 10 rod element
Lecture 11 Create bar element
Lecture 12 Concept of C-D-E-F point
Lecture 13 Bar element analysis
Lecture 14 Create bar element using rectangular cross section
Lecture 15 Different of dof (Degree of freedom)
Lecture 16 Roll cage Analysis
Section 3: 2D Meshing
Lecture 17 2D Meshing topic cover in session
Lecture 18 how to open and save file In HyperMesh
Lecture 19 Working with panel
Lecture 20 Organizing a model
Lecture 21 Importing and repairing CAD
Lecture 22 Create a Mid-surface
Lecture 23 Simplifying Geometry
Lecture 24 Refining topology to achieve a quality mesh
Lecture 25 Auto Meshing panel
Lecture 26 Meshing without surfaces
Lecture 27 Create a Meshing in Curved surfaces
Lecture 28 Checking and editing Mesh
Section 4: 3D Meshing
Lecture 29 Create and Edit solid geometry
Lecture 30 Perform Tetra Meshing
Lecture 31 Creating a hex-penta mesh using surfaces part 1
Lecture 32 Creating a hex-penta mesh using surfaces part 2
Lecture 33 Creating a hexahedral mesh using the solid map function
Lecture 34 Using the tetramesh process manager
Section 5: Analysis and Post Processing
Lecture 35 Linear static analysis of a plate with a hole Part 1
Lecture 36 Linear static analysis of a plate with a hole part 2
Lecture 37 Thermal stress analysis of a coffee pot lid
Lecture 38 Normal modes analysis of a splash shield
Lecture 39 3D Inertia relief analysis using RADIOSS
Lecture 40 3D Buckling analysis using RADIOSS
Lecture 41 Connection of dissimilar meshes using CWELD element
Lecture 42 Analysis of a composite aircraft structure using PCOMPG
Lecture 43 Direct frequency response analysis of a flat plate
Lecture 44 Model frequency response analysis of a flat plate
Lecture 45 Acoustic analysis of a half car model
Lecture 46 Random response analysis of a flat plate
Lecture 47 Nonlinear gap analysis of an airplane wing rib
Lecture 48 Direct transient dynamic analysis of a bracket
Section 6: Topology Optimization
Lecture 49 Design concept for a structural C-clip
Lecture 50 Design concept for a structural C-clip with minimum member size control
Lecture 51 Topology optimization for an automotive control arm
Lecture 52 Increasing natural frequencies of an automotive splash shield with ribs
Lecture 53 Control arm topology optimization with draw direction constraints
Lecture 54 Sport weld reduction using CWELD and 1-D Topology optimization
Section 7: Use 3D Models in practice
Lecture 55 Practice models
Computer aided design & engineering,learn practical application of FEA and CAE,Aerospace Engineering,Mechanical and Industrial Engineer,Learn Meshing and Analysis of Mechanical System,Automobile Engineers
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