HOT
blank

Geometric Dimensioning & Tolerancing : Advanced concepts

Teaching & Academics

Rating4.5
Enroll Now

Geometric Dimensioning & Tolerancing : Advanced concepts, available at $84.99, has an average rating of 4.46, with 107 lectures, 10 quizzes, based on 1154 reviews, and has 7631 subscribers.

You will learn about Geometric Tolerancing of Patterns of features Using Composite position control for controlling patterns and features How to use Datum targets on irregular shape parts Projected Tolerance zone Methodology of tolerancing slots Comparison of composite control vs multi segment control Refinement of orientation of form controls This course is ideal for individuals who are Design engineers working in industry or Mechanical engineering students or Manufacturing Personnel – Inspection & Production It is particularly useful for Design engineers working in industry or Mechanical engineering students or Manufacturing Personnel – Inspection & Production.

Enroll now: Geometric Dimensioning & Tolerancing : Advanced concepts

Summary

Title: Geometric Dimensioning & Tolerancing : Advanced concepts

Price: $84.99

Average Rating: 4.46

Number of Lectures: 107

Number of Quizzes: 10

Number of Published Lectures: 107

Number of Published Quizzes: 10

Number of Curriculum Items: 117

Number of Published Curriculum Objects: 117

Original Price: $64.99

Quality Status: approved

Status: Live

What You Will Learn

  • Geometric Tolerancing of Patterns of features
  • Using Composite position control for controlling patterns and features
  • How to use Datum targets on irregular shape parts
  • Projected Tolerance zone
  • Methodology of tolerancing slots
  • Comparison of composite control vs multi segment control
  • Refinement of orientation of form controls

Who Should Attend

  • Design engineers working in industry
  • Mechanical engineering students
  • Manufacturing Personnel – Inspection & Production

Target Audiences

  • Design engineers working in industry
  • Mechanical engineering students
  • Manufacturing Personnel – Inspection & Production

Topics covered : 

  • Profile tolerance in depth

    • Relimited control of profile

    • Biased tolerance zone

    • Application of profile on Flange part

  • How are Patterns toleranced and what does the callout mean with multiple examples

  • Using Patterns as datums

  • Refinement of Orientation and Form in Position and Profile tolerance

  • Auxiliary datums – Datums apart from the datum reference frame.

  • Inclined datum features – two examples

  • Concept of simultaneous requirements- What does it mean ? What does it imply?

  • Difference between simultaneous and seperate requirements

  • Gauging with simultaneous requirements

  • Gauging with seperate requirements

  • Composite position control

  • Composite vs Multi segment position control

  • Composite Gauging

  • Composite Profile control vs multi segment profile control

  • Tolerancing of slots – Methods and their differences

  • Using slots as Datums

  • Datum Targets – Why use them ? When to use them ? How to use them ?

  • Inspection with datum targets

  • What is Zero positional tolerancing at MMC? with example and why use it?

  • What is Projected tolerance zone ? with example and why use it?

All the lectures are in form of

  • Short “to the point ” explanations of concepts

  • Focus on practical examples

  • Learn the why and why not along with comparisons

Pre-requisites required:

  • Understanding of Basic concepts of GD&T like

    • Datums

    • Modifiers and material conditions

    • Tolerance zones

    • Symbol meanings

    • Concept of Size, Form , orientation, and location

    • Virtual conditions

Course Curriculum

Chapter 1: Introduction

Lecture 1: Introduction

Lecture 2: GD&T Basics Refresher part 1

Lecture 3: GD&T Basics refresher part 2

Lecture 4: GD&T basics refresher part 3

Lecture 5: Profile vs position control

Chapter 2: Profile tolerance – in depth

Lecture 1: Profile tolerance interpretations

Lecture 2: Profile Tolerance interpretations – 3D

Lecture 3: Application of Profile on Flange – Example

Lecture 4: Replacing orientation and position control with profile

Lecture 5: Relimited Profile Control

Lecture 6: More examples in Profile applied to components

Lecture 7: Biased and Unilateral Tolerance zone

Lecture 8: Exercise : Set profile control for surface on drawing

Chapter 3: Patterns

Lecture 1: Rectangular Patterns – Example 1

Lecture 2: Rectangular Pattern – Example 2

Lecture 3: Verifying Position control of Pattern – part 1

Lecture 4: Verifying Position control of Pattern – part 1

Lecture 5: Verifying Position control of pattern with MMC modifier

Lecture 6: Circular Pattern

Lecture 7: Verifying Position control of Circular Pattern – part 1

Lecture 8: Verifying Position control of Circular Pattern – part 2

Lecture 9: Exercise 1 – Verify the part based on GD&T drawing

Lecture 10: Exercise 2 – Verify the part based on GD&T drawing

Lecture 11: Exercise 3 – Derive the equations for tolerance zone circles

Lecture 12: Rectangular pattern of rectangular features

Lecture 13: Pattern as Datum Feature

Lecture 14: Example of Functional gauge for pattern

Chapter 4: Inclined datum and Auxiliary datum

Lecture 1: Inclined Datums – Examples

Lecture 2: Auxilary Datums – Example 1

Lecture 3: Auxilary Datums – Example 2

Chapter 5: Refinement of Profile and Position controls

Lecture 1: Refinement of Position to Orientation and Form

Lecture 2: Refinement of Profile to orientation and form

Lecture 3: Refinement of Position to orientation – Tolerance zone and angle calculation

Lecture 4: Refinement of Position to orientation – Visualization in 3D

Lecture 5: Refinement of Profile to orientation and form Example 2

Lecture 6: Refinement of position to perpendicularity – exercise

Chapter 6: Simultaneous Requirements

Lecture 1: Simultaneous requirement – Example 1

Lecture 2: Simultaneous requirement – Example 2 Redo

Lecture 3: Points to note in Simultaneous requirements

Lecture 4: Simultaneous vs separate Requirement – Example 3

Lecture 5: Gauging with Simultaneous requirements- Example 4

Lecture 6: Variation on Example 4

Lecture 7: Simultaneous requirement with auxiliary datum

Lecture 8: Simultaneous requirements example 6- 3D example

Lecture 9: Simultaneous requirements 3D example 6 functional gauging

Lecture 10: Different datum sequence – Example

Lecture 11: Separate Requirements – Gauge

Lecture 12: Exercise in Simultaneous requirements – Identify

Chapter 7: Composite Position control

Lecture 1: Composite control on pattern- Example 1

Lecture 2: Composite position control vs normal equations

Lecture 3: Composite position control – Example measured part

Lecture 4: Composite position control – Centre to centre distance visualized

Lecture 5: Composite position control – 1 datum in second line

Lecture 6: Composite position control – 2 datum in second line

Lecture 7: Composite control – Circular pattern – Example 2

Lecture 8: Composite control – Example 3 – Redo

Lecture 9: Composite position control 4 hole pattern example

Lecture 10: Composite Gauging

Lecture 11: Composite Gauging – First line

Lecture 12: Composite gauging – Second line

Lecture 13: Composite gauging – Third Line

Lecture 14: Composite position control- Functional gauging example 2

Lecture 15: Composite vs Multi segment position control

Lecture 16: Composite vs Multi segment position control – Tolerance zone mobility

Lecture 17: Composite vs Multi segment position control – Tolerance zone 3D visualization

Lecture 18: Composite vs Multi segment position – Calculations / verification Part 1

Lecture 19: Composite vs Multi segment position – Calculations / verification Part 2

Lecture 20: Composite vs Multi segment control -Circular pattern

Lecture 21: Composite vs Multi segment control -Circular pattern – Tolerance zone mobility

Lecture 22: Exercise 1 – composite position

Lecture 23: Exercise 2 – composite position

Lecture 24: Summary – Composite vs Multi segment control

Chapter 8: Composite Profile control

Lecture 1: Composite profile control – Example 1

Lecture 2: Composite profile control – Example 2

Lecture 3: Composite profile control – Example 3

Lecture 4: Composite profile vs multi segment profile control – example 3

Lecture 5: Exercise 1 – composite profile control

Chapter 9: Slot Control

Lecture 1: Slot control scheme 1

Lecture 2: Slot control scheme 2

Lecture 3: Slot control scheme 3

Lecture 4: Slot as Datum feature

Chapter 10: Multiple Datum Feature datum

Lecture 1: What is Multiple Datum feature?

Instructors

Rating Distribution

  • 1 stars: 10 votes
  • 2 stars: 33 votes
  • 3 stars: 136 votes
  • 4 stars: 503 votes
  • 5 stars: 472 votes

Frequently Asked Questions


How long do I have access to the course materials?


You can view and review the lecture materials indefinitely, like an on-demand channel.


Can I take my courses with me wherever I go?


Definitely! If you have an internet connection, courses on Udemy are available on any device at any time. If you don’t have an internet connection, some instructors also let their students download course lectures. That’s up to the instructor though, so make sure you get on their good side!

You may also like

Top 10 Language Learning Courses to Learn in December 2024

Top 10 Health And Wellness Courses to Learn in December 2024

Top 10 Language Learning Courses to Learn in November 2024