Udemy
    •  
    •  
    •  
    •  
    •  
    •  
    •  
    •  
Turn what you know into an opportunity and reach millions around the world.
Learn More
Your cart is empty.
Keep shopping
Soildwork simulation || تحليل الاجهادات الميكانيكية
Rating: 4.3 out of 5(83 ratings)
2,869 students

Soildwork simulation || تحليل الاجهادات الميكانيكية

في هذا الكورس سوف تتعلم كيفية تحليل الاجهادات الثابته بواسطة السوليدوركس بالاضافه الي شرح اساسيات الاجهادات الميكانيكية
Created byIslam Amir
Last updated 6/2022
Arabic

What you'll learn

  • Overview •Definition design •Design process•CAD FILE•FEA Static Normal Stresses(tension,Compression, Bendind,shear stresses) CFD Drag force pressur
  • •Different between force strength stress •Type of Load   Loads   Torque   Gravity   Pressure   Centrifugal force Tensile force قوى الشد Compression fo
  • defintion FEA  FINITE ELEMENT ANALYSIS (FEA) Stress analysis steps build three-dimensional model of the part create «Study». define more the material gener
  • Fixtures  :التثبيتات Fixed geometry Roller Symmetry Elastic support Cyclic symmetry Bearing Fixture On cylindrical face In spherical face Reference ge
  • defintion FEA  FINITE ELEMENT ANALYSIS (FEA) Stress analysis steps build three-dimensional model of the part create «Study». define more the material gener
  • Connectors الوصلات Edge weld وصلات اللحام المسامير Bolt - Pin Bearing Spring
  • Gears Analysis

Course content

15 sections28 lectures4h 50m total length
  • Introduction || Fundamental Of Mechanical Design31:14

    Overview

    •Definition design

    •Design process
    •CAD FILE
    •FEA

    1. Static

    2. Normal Stresses(tension,Compression, Bendind,shear stresses)

    3. CFD

    4. Drag force pressur

    •Different between force strength stress


  • Type of Load35:57

    •Type of Load

    1.   Loads

    2.   Torque

    3.   Gravity

    4.   Pressure

    5.   Centrifugal force

    6. Tensile force قوى الشد

    7. Compression force قوة الضغط

    8. Shear القص

    9. Torsion الثني

    10. Bending الانحناء

    11. Impact loadالتصادم

    12. Weight load الوزن

    defintion FEA  FINITE ELEMENT ANALYSIS (FEA)

    Stress analysis steps

    1. build three-dimensional model of the part

    2. create «Study».

    3. define more the material

    4. generate finite element mesh

    5. apply boundary conditions reflecting the essence of the physical phenomenon being analysed (restraints, loads)

    6. run calculations

    Type of meshing

    -solid mesh

    1-first order draft quality

    2- second order high quality

    -shell mech

    Different between mass and weight

    stress–strain curve
    Elastic Limit
    Yield Point
    Ultimate Stress Point
    Fracture or Breaking Point

Requirements

  • Know the basics of the Solid Work program

Description

Overview

•Definition design

•Design process
•CAD FILE
•FEA

  1. Static

  2. Normal Stresses(tension,Compression, Bendind,shear stresses)

  3. CFD

  4. Drag force pressur

•Different between force strength stress

•Type of Load

  1.   Loads

  2.   Torque

  3.   Gravity

  4.   Pressure

  5.   Centrifugal force

  6. Tensile force قوى الشد

  7. Compression force قوة الضغط

  8. Shear القص

  9. Torsion الثني

  10. Bending الانحناء

  11. Impact loadالتصادم

  12. Weight load الوزن

-defintion FEA  FINITE ELEMENT ANALYSIS (FEA)

-Stress analysis steps

  1. build three-dimensional model of the part

  2. create «Study».

  3. define more the material

  4. generate finite element mesh

  5. apply boundary conditions reflecting the essence of the physical phenomenon being analysed (restraints, loads)

  6. run calculations

-Type of meshing

-solid mesh

1-first order draft quality

2- second order high quality

-shell mech

-Different between mass and weight

-stress–strain curve
Elastic Limit
Yield Point
Ultimate Stress Point
Fracture or Breaking Point

-Fixtures  :التثبيتات

  • Fixed geometry

  • Roller

  • Symmetry

  • Elastic support

  • Cyclic symmetry

  • Bearing Fixture

  • On cylindrical face

  • In spherical face

  • Reference geometry

  • On flat face

  • Hinge

-defintion FEA  FINITE ELEMENT ANALYSIS (FEA)

-Stress analysis steps

  1. build three-dimensional model of the part

  2. create «Study».

  3. define more the material

  4. generate finite element mesh

  5. apply boundary conditions reflecting the essence of the physical phenomenon being analysed (restraints, loads)

  6. run calculations

-Type of meshing كيفية عمل التقسيم الشبكي ومعرفة اهم القواعد الخاصه به Mesh Methods

-solid mesh

1-first order draft quality

2- second order high quality

-shell mech

-Different between mass and weight

-stress–strain curve
Elastic Limit
Yield Point
Ultimate Stress Point
Fracture or Breaking Point

-Gears Analysis

-Connectors الوصلات

  1. Edge weld وصلات اللحام

  2. المسامير Bolt - Pin

  3. Bearing

  4. Spring

Results استعراض النواتج ودراستها

Who this course is for:

  • Production mechanical engineers
  • design mechanical engineers
  • FEA engineers
  • power mechanical engineers