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Altair Hypermesh : Learn Meshing And Linear Static Analysis

Posted By: ELK1nG
Altair Hypermesh : Learn Meshing And Linear Static Analysis

Altair Hypermesh : Learn Meshing And Linear Static Analysis
Last updated 8/2022
MP4 | Video: h264, 1280x720 | Audio: AAC, 44.1 KHz
Language: English | Size: 12.73 GB | Duration: 19h 39m

Learn meshing with hypermesh and perform linear static analysis with optistruct

What you'll learn

create meshing of different parts and components

meshing of 1-D elements like rods, beams, bars, trusses etc.

meshing of 2-D components like plates, Plastics, sheetmetals etc

meshing of 3-D components like piston, wheel, crankshaft etc.

performing linear static analysis to calculate values like stresses, strains, deformation, failure criterion etc.

Requirements

Basic Knowledge of CAD modeling on any software will be advantageous.

Knowledge of fundamentals of mechanics of solids like stress, strains, heat transfer, machine design will be helpful in understanding the analysis

Basic Knowledge of handling PC

Hypermesh software version 2017 or any older version upto 13.

Description

Hello friends, welcome to this course on hypermesh . in this course, you everything about meshing and performing linear static analysis. the meshing is done in hypermesh and analysis is done in optistruct.About Software Hyperworks is a complete software package developed by altair engineering. hypermesh and optistruct are a part of that package .About CourseThis course is divide into 4 modules1-dimensional (1D) meshing - for elements like rods, bars, beam, trusses etc.2-dimensional (2D) meshing - for elements like plates, plastic components, sheetmetal etc.3-dimensional (3D) meshing - for components like piston, engine ,shaft etc.Linear static analysis - to calculate stresses, strains, deformation etc.Why This Coursethis course will take you from a beginner to pro in meshing and analysis. after taking this courseyou can confidentally highlight hypermesh in your resume.with the skills learned in this course, you can get a job as a CAE or FEA engineer.(simulation or analysis engineer)we have covered all the basic fundamentals of solid mechanics, engineering mechanics to give you knowledge behind the analysis.

Overview

Section 1: Introduction

Lecture 1 Introduction to hypermesh Course

Lecture 2 About Softwares hyperworks and hypermesh

Lecture 3 User interface of hypermesh software

Lecture 4 Mouse Working in Hypermesh

Section 2: Download Resource files

Lecture 5 Download Project Files

Section 3: 1 Dimensional (1D) meshing

Lecture 6 FEA Theory

Lecture 7 Stress and Strain

Lecture 8 Degree of Freedom

Lecture 9 1D bar Problem part 1

Lecture 10 1D bar Problem part 2

Lecture 11 Rod 1D

Lecture 12 1D Beam Bending Problem ( Cantilever Beam )

Lecture 13 Beam Bending Problem part 2

Lecture 14 Fix Fix Beam Assignment

Lecture 15 Assignment Solution ( Simply Supported Beam )

Lecture 16 Beam Orientation

Lecture 17 Line Mesh

Section 4: 2D meshing

Lecture 18 Import and Export Files

Lecture 19 create Nodes

Lecture 20 Organize a Model

Lecture 21 Repair Geometry

Lecture 22 Generating a Mid Surface

Lecture 23 Defeature Geometry

Lecture 24 Automesh Tool

Lecture 25 Quick Edit

Lecture 26 2D mesh Part 1

Lecture 27 2D mesh Part 2

Lecture 28 2D mesh Part 3

Section 5: Mesh Edit Options

Lecture 29 Free Edges

Lecture 30 Mask

Lecture 31 Measure

Lecture 32 Node Edit

Lecture 33 Project Elements

Lecture 34 Replace Nodes

Lecture 35 Smooth Elements

Lecture 36 Translate Nodes

Lecture 37 Split Element

Section 6: Shell Mesh Project

Lecture 38 Element Quality

Lecture 39 Improve Element Quality 1

Lecture 40 Improve Element Quality 2

Lecture 41 2D mesh Project 1

Lecture 42 2D mesh Project 2

Lecture 43 2D mesh Project 3

Lecture 44 2D mesh Project 4

Section 7: Shell mesh Assembly

Lecture 45 Assembly mesh part 1

Lecture 46 Assembly mesh part 2

Lecture 47 Ruled mesh

Section 8: 2D mesh Practice

Lecture 48 2D mesh Practice

Section 9: Create Geomtery

Lecture 49 create line part 1

Lecture 50 create line part 2

Lecture 51 Create Surfaces

Lecture 52 Create Solids

Section 10: 3D meshing

Lecture 53 3D meshing fundamentals

Lecture 54 Solid Edit

Lecture 55 Types of 3D Elements

Lecture 56 Solid Map Command

Lecture 57 Solid Map Techniques

Lecture 58 Solid Edit

Lecture 59 Surface Edit

Section 11: Hex Mesh Examples

Lecture 60 Hex Mesh Example 1

Lecture 61 Hex Mesh Connectivity

Lecture 62 Improve Hex Mesh Flow

Lecture 63 Hex Mesh Example 2

Lecture 64 Hex Mesh Example 3

Lecture 65 Hex Mesh Example 4

Lecture 66 Meshing Self Practice Models

Section 12: Additional Hex Meshing

Lecture 67 Sphere Meshing 1

Lecture 68 Sphere Meshing 2

Lecture 69 Arm Bracket 1

Lecture 70 Arm Bracket 2

Section 13: Tetra meshing

Lecture 71 Tetra - meshing Part 1

Lecture 72 Tetra - meshing Part 2

Lecture 73 Tetra mesh Manual

Lecture 74 Position Command

Section 14: Analysis

Lecture 75 Concept of Von Mises Stress

Lecture 76 Linear Static Analysis part 1 (Problem Definition)

Lecture 77 Linear Static Analysis part 2 (Material Properties)

Lecture 78 Linear Static Analysis part 3 (Performing analysis)

Lecture 79 Linear Static Analysis part 4

Lecture 80 Linear Static Analysis part 5

Lecture 81 Linear Analysis using Psolid 1

Lecture 82 Linear Analysis using Psolid 2

Section 15: Addition Linear Analysis

Lecture 83 Multi-Ple Loads

Lecture 84 Multi Load Steps

Lecture 85 Oblique Loading

Lecture 86 Loading using Rigid elements

Lecture 87 Loading with Pressure

Lecture 88 Constraints

Section 16: Contacts

Lecture 89 Autocontact

Lecture 90 Manual Contacts

Lecture 91 Types of contacts

Lecture 92 Surface Interactions

Lecture 93 Contact Parameters

Lecture 94 Master vs Slave Contacts

Lecture 95 Finite vs Small Sliding

Lecture 96 Friction Contact

Lecture 97 Flange Contact

Section 17: Modal Analysis

Lecture 98 Dynamic analysis intro

Lecture 99 Static vs Dynamic Analysis

Lecture 100 Basics of Modal Analysis

Lecture 101 Modal Analysis

Section 18: Rigid Body Elements

Lecture 102 Rigid elements 1

Lecture 103 Rigid Elements 2

Lecture 104 Rigid Applications

Lecture 105 Bolt Connection using RBE2

Section 19: Non Linear Analysis

Lecture 106 Basics of non linearity

Lecture 107 Source of Non linearity

Lecture 108 Geometric Non Linearity

Lecture 109 Material Non Linearity

Lecture 110 Contact Non Linearity

Lecture 111 Non Linear Algorithm for Optistruct

Lecture 112 Non Linear Analysis Beam 1

Lecture 113 Non Linear Analysis Beam 2

Lecture 114 Non Linear Analysis Beam 3

Section 20: Pretension Loading

Lecture 115 Pretension Intro

Lecture 116 Pretension for 1D Bolt

Lecture 117 Pretension 3D

Lecture 118 Pretension Loadstep

Section 21: Buckling Analysis

Lecture 119 Buckling Analysis

Lecture 120 Buckling Analysis Example 1 Part 1

Lecture 121 Buckling Analysis Example 1 Part 2

Lecture 122 Buckling Analysis Example 2 Part 1

Lecture 123 Buckling Analysis Example 2 Part 2

Section 22: Thermal Analysis

Lecture 124 Thermal Analysis

Lecture 125 Thermal Analysis Example 1 Part 1

Lecture 126 Thermal Analysis Example 1 Part 2

Lecture 127 Thermal Analysis Example 2 Part 1

Lecture 128 Thermal Analysis Example 2 Part 2

Section 23: Plastic Meshing

Lecture 129 Plastic Meshing Intro

Lecture 130 Midmesh Tool Plastic 1

Lecture 131 Midmesh Tool Plastic 2

Lecture 132 Assign Auto Thickness

Section 24: Bumper Plastic Meshing Project

Lecture 133 Bumper Plastic Mesh 1

Lecture 134 Bumper Plastic Mesh 2

Lecture 135 Bumper Plastic Mesh 3

Lecture 136 Bumper Plastic Mesh 4

Lecture 137 Bumper Plastic Mesh 5

Lecture 138 Bumper Plastic Mesh 6

Section 25: Hypermesh Abaqus Interface

Lecture 139 Hypermesh Abaqus Solver part 1

Lecture 140 Hypermesh Abaqus Solver part 2

Lecture 141 Hypermesh Abaqus Solver part 3

mechanical engineers and research scholars in Masters & Phd degree,Aerospace Engineers,automobile Design Engineer,Anyone who wants to be a CAE engineer (computer aided engineering),Anyone who wants to learn practical application of FEA ( finite element analysis),anyone who wants to learn meshing and analysis of mechanical systems