Last updated 12/2020
MP4 | Video: h264, 1280×720 | Audio: AAC, 44.1 KHz
Language: English | Size: 3.35 GB | Duration: 7h 51m
Lean Finite Element Structural Analysis with ANSYS Workbench with Practical Applications
What you’ll learn
Structural Analysis
Linear static Analysis
Buckling Analysis
Heat Transfer Analysis
Non Linear Analysis
Meshing
Dynamic Simulations
Requirements
ANSYS Software
Description
welcome to this course on ANSYS Workbench . in this course , you will learn ANSYS from basics to advance level.this course deals with Structural analysis in ANSYS. the main content of this course is as following.Linear Static Analysis Buckling AnalysisHeat Transfer ProblemsContact definitionsMeshing AlgorithmsNon LinearityDynamic SimulationModal AnalysisWhy Take This courseThis course gives an easy introduction to ANSYS Workbench software.Even an absolute beginner without any past experience can take this course.It covers all important tools that are used in industry.The problems taken in this course are industry oriented with real life applications.The course content is regularly updated depending on student feedback and their requirementUnlimited and lifetime access to all lectures and content anywhere, anytime.Course FeaturesSoftware version – ANSYS 2020 R1Language – EnglishCourse RequirementANSYS softwareBasic Knowledge of mechanical of material, strength of material, machine design and Finite element analysis would be advantageous.Who should take this course?Mechanical engineersAutomotive engineersDesign engineersCAE and FEA engineersAnyone who wants to learn ANSYS and engineering simulationWho this course is for:Mechanical engineersAutomotive engineersDesign engineersCAE and FEA engineersAnyone who wants to learn ANSYS and engineering simulation
Overview
Section 1: Introduction
Lecture 1 Course intro
Lecture 2 ANSYS User Interface
Lecture 3 Different Types of Analysis in FEA
Lecture 4 Degree of Freedom FEA
Lecture 5 Nodes & Elements in FEA
Lecture 6 Download Project Files
Section 2: Linear Static Analsyis
Lecture 7 Fundamentals of Linear Static Analysis
Lecture 8 Plate with Hole Part 1
Lecture 9 Plate with Hole part 2
Section 3: Beam Analysis
Lecture 10 1D Beam Analysis Part 1
Lecture 11 1D Beam Analysis Part 2
Lecture 12 1D Beam Bending
Section 4: Truss Analysis
Lecture 13 Truss Problem intro
Lecture 14 Truss Analysis part 1
Lecture 15 Truss Analysis Part 2
Section 5: Steel Frame Analysis
Lecture 16 Steel Frame Intro
Lecture 17 Frame Analysis Part 1
Lecture 18 Frame Analysis Part 2
Section 6: Clutch Plate Analysis
Lecture 19 Clutch Plate Analysis part 1
Lecture 20 Clutch Plate Analysis part 2
Section 7: Mid surface Analysis
Lecture 21 Mid Surface Intro
Lecture 22 Mid Surface Extract
Lecture 23 Mid surface Analysis Part 1
Lecture 24 Mid surface Analysis Part 2
Section 8: Buckling of Beams
Lecture 25 Buckling intro
Lecture 26 Buckling Problem Part1
Lecture 27 Buckling Problem part 2
Section 9: Buckling of Connecting Rod
Lecture 28 Buckling con rod part 1
Lecture 29 Buckling con rod part 2
Section 10: Meshing
Lecture 30 Intro to Meshing
Lecture 31 Element Types
Lecture 32 Element Size
Lecture 33 Tetra mesh Global Mesh Control
Lecture 34 Local mesh control 1
Lecture 35 Local mesh 2 Layered Tetra
Lecture 36 Element Quality
Lecture 37 Sweep Mesh
Lecture 38 Mesh Copy
Lecture 39 Multi Zone Mesh
Section 11: Heat Conduction
Lecture 40 Heat Conduction 01
Lecture 41 Heat Conduction 02
Section 12: Heat Conduction in Composite Wall
Lecture 42 Composite wall 1
Lecture 43 Composite wall 2
Section 13: Design Modeler
Lecture 44 Sketch Design Modeler
Lecture 45 Extrude
Lecture 46 Revolve
Lecture 47 Geometry Edit
Section 14: Non Linear Analysis
Lecture 48 Intro to Non Linearity
Lecture 49 Contact Analysis
Lecture 50 Bonded Contact 1
Lecture 51 Bonded Contact 2
Lecture 52 Friction Contact
Lecture 53 Manual Contact
Lecture 54 Contact ALgorithms
Lecture 55 Material hardening
Lecture 56 Non Linear Algorithms
Section 15: Pressure Vessel Analysis
Lecture 57 Pressure Vessel intro
Lecture 58 Pressure Vessel analysis 1
Lecture 59 Pressure Vessel analysis 2
Section 16: 3 Point Bending Test
Lecture 60 3 point bending Intro
Lecture 61 3 point bending Analysis 1
Lecture 62 3 point bending Analysis 2
Lecture 63 3 point bending Analysis 3
Section 17: Transient Analysis of a Crankshaft
Lecture 64 Transient Analysis of Crankshaft Part 1
Lecture 65 Transient Analysis of Crankshaft Part 2
Lecture 66 Transient Analysis of Crankshaft Part 3
Section 18: Dynamic Analysis
Lecture 67 Dynamic Analysis Basics
Lecture 68 Fundamental of Modal analysis
Lecture 69 Modal Analysis of Beam
Mechanical engineers,Design Engineers,CAE FEA Engineers,Students undergraduate & post Graduates
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