Fea Basic Definitions For Beginners

Mesh Techniques, Static, Buckling, Dynamic, Modal, Fatigue, CFD Analyzes, Topology Optimization

What you'll learn

Learn the basics of MESH TECHNIQUES

Learn the basics of STATIC STRUCTURAL ANALYSIS

Learn the basics of BUCKLING ANALYSIS

Learn the basics of DYNAMIC ANALYZES

Learn the basics of MODAL ANALYSIS

Learn the basics of FATIGUE ANALYSIS

Learn the basics of CFD

Learn the basics of TOPOLOGY OPTIMIZATION

Build your theoretical background for FEA in a short time

Requirements

No experience required. You will learn everything.

Description

         COURSE CONTENTMesh, Static Structural Analysis,Buckling Analysis,Dynamic Analyzes,Modal Analysis,Topology Optimization,Fatigue Analysis,CFDIf you want to understand the logic of FEA in a short time, and build your theoretical background on all types of analysis, this course is for you.In this course, I have prepared the basic definitions you need to know before you start using a CAE program.The course is brief and concise. My main purpose is to propose high efficiency in a short time.Engineering students.Engineers who have no knowledge of FEA and want to start FEA.Those who are not engineers but work in design, R&D or production positions and want to start FEA.It is for anyone who wants to learn Finite Element Analysis.In a CAD program, it is enough to use the program commands well to create a design.In a CAE program, It is not enough to use the program commands well to perform analyzes.Also you have to have engineering knowledge to use properly.Thanks to this course you can acquire theoretical background with basic definitions.The course content was prepared by Mechanical Engineer Alper YALÇIN.The course content cannot be used without permission!

Overview

Section 1: INTRODUCTION to COURSE

Lecture 1 Main Purpose of The Course

Section 2: INTRODUCTION to FEA

Lecture 2 What Are the Benefits of Using CAE (FEA) Programs?

Lecture 3 Analytical & Numerical Methods

Lecture 4 Overview of Doing an Analysis

Section 3: MESH

Lecture 5 What is the Mesh?

Lecture 6 Mesh Element Number & Its Effect

Lecture 7 Mesh Trick

Lecture 8 Introduction to the Mesh Quality

Lecture 9 Mesh Quality Evaluation Methods

Lecture 10 Contacts

Section 4: STATIC STRUCTURAL ANALYSIS

Lecture 11 What is the Static Structural Analysis?

Lecture 12 Non-Linear Static Analyzes

Lecture 13 Stress Calculate Criteria

Lecture 14 Implicit Method

Section 5: BUCKLING ANALYSIS

Lecture 15 What is the Buckling Analysis?

Section 6: DYNAMIC ANALYZES

Lecture 16 What is the Dynamic Analysis?

Lecture 17 Explicit Method

Lecture 18 Frequency Notion & FFT

Section 7: MODAL ANALYSIS

Lecture 19 What is the Modal Analysis?

Lecture 20 What is the Natural Frequency & Resonance?

Lecture 21 What is the Mode & Mode Shape?

Section 8: TRANSIENT ANALYSIS

Lecture 22 What is the Transient Analysis?

Section 9: HARMONIC ANALYSIS

Lecture 23 What is the Harmonic Analysis?

Section 10: RANDOM VIBRATION ANALYSIS

Lecture 24 What is the Random Vibration Analysis?

Section 11: TOPOLOGY OPTIMIZATION

Lecture 25 What is the Topology Optimization?

Section 12: FATIGUE ANALYSIS

Lecture 26 What is the Fatigue?

Lecture 27 What is the Wöhler Curve?

Lecture 28 What is the Goodman, Soderberg, Gerber?

Lecture 29 Determining the Fatigue Analysis Method

Lecture 30 Tricks About Fatigue Life

Section 13: CFD

Lecture 31 What is the CFD?

Lecture 32 How Can Planes Fly?

Lecture 33 Laminar & Turbulent Flows

Lecture 34 Multiphase Flows

Lecture 35 Multiphase Flow in Automobile AC System

Lecture 36 Supersonic Flows

Lecture 37 Cavitation

Lecture 38 Newtonian & Non-Newtonian Flows

Lecture 39 Navier Stokes Equation & Lagrangian, Eulerian Methods

Lecture 40 Preparation for CFD Analysis

Lecture 41 Inflation

Lecture 42 CFD Mesh Tricks

Engineering students,Engineers