Gd&T Applied To Components With Case Studies

Learn about how to apply Tolerancing schemes to component based on function for design engineers with case studies

What you'll learn
How to establish GD&T scheme for a component based on its application
How to decide the type and nature of geometric control for tolerancing
How to apply design intent into engineering drawing
Understand the practical gauging and inspection
Requirements
Understanding of Basics and advanced concepts of GD&t is a pre-requisite
Description
This is one of a kind  advanced application based course for Geometric dimensioning and Tolerancing  which blends the GD&T knowledge with actual component design and how to develop a tolerancing scheme and how it impacts assembly . The first section of course deals with a generic methodology in understanding g a component ,  the functional relationships of its elements and applying GD&T on engineering drawing.Followed by a Elaborate set of case studies which go in deep to smallest details of the component and application of Geometric Dimensioning and Tolerancing scheme that aligns with the product function .1. How to set up datum scheme based on application 2. How to set up Geometric controls and their meanings 3. Where composite positional/ profile controls are used their meanings and physical meaning in gauges. 4. Inspection and Functional gauging procedure based on GD&T drawing to understand the physical meaning and affect on assembly of system. 5. The reasoning behind the usage of certain controls over others. Case studies include components ranging from the Yoke of a universal joint , Special flanges , Special latch, Steering shaft mount brackets, Bike Handle bar mount systems, Rocker arm mechanisms, etc. The aim of the course is to bring out the conceptual application of GD&T on actual components. Reason behind creating this course is that most engineers look at GD&T as only another standard or something to learn to just use on the drawing.  But the conceptual understanding of application is missed out. GD&T is an amazing tool to create a very clear and functional drawing. Allowing to relate features to each other . As an engineer, having had the experience first hand the impact a good GD&T drawing can have . I have tried to create a learning resource which can replicate the situations in industry. Learning outcomes : Ability to interpret a components functional features and apply a tolerancing schemeDevelop a strong conceptual understanding of application of GD&T in actual industrial setting

Overview

Section 1: Introduction

Lecture 1 Introduction

Lecture 2 Background- Design process and Design intent

Lecture 3 Functional tolerancing - some simple examples

Lecture 4 Procedure for Applying GD&T to component

Section 2: Case study 1

Lecture 5 Yoke - Intro and construction

Lecture 6 Yoke - functional features

Lecture 7 Yoke- Drawing

Lecture 8 Yoke - Functional Gauge

Section 3: Case study 2

Lecture 9 Punching MC - Intro and functional features

Lecture 10 Punching MC- Drawing

Lecture 11 Punching MC - projected tolerance zone

Lecture 12 Punching MC- Inspection gauges for practical understanding

Section 4: Case study 3

Lecture 13 Slide Bracket - Intro and functional features

Lecture 14 Slide bracket - Drawing

Lecture 15 Slide Bracket - Inspection

Section 5: Case study 4

Lecture 16 Tube bracket - Intro and functional features

Lecture 17 Tube Bracket - Drawing

Lecture 18 Tube Bracket - Inspection

Section 6: Case study 5

Lecture 19 Rotatable mount - Intro and features

Lecture 20 Rotatable mount - Drawing

Lecture 21 Rotating Mount - Inspection

Section 7: Case study 6

Lecture 22 Motor Mounting- Intro and functional features

Lecture 23 Motor Mounting- Drawing

Lecture 24 Motor Mounting- Inspection

Section 8: Case study 7

Lecture 25 Hinge Bracket - Intro ,Functional features and Drawing

Lecture 26 Hinge Bracket - Inspection

Section 9: Case study 8

Lecture 27 Handle Bar mount - Introduction and Functional features

Lecture 28 Handle Bar mount - Drawing

Lecture 29 Handle Bar mount - Inspection

Section 10: Case study 9

Lecture 30 Special Latch - Intro and functional features

Lecture 31 Special Latch - Drawing

Lecture 32 Special Latch - Inspection

Section 11: Case study 10

Lecture 33 Check Valve - Intro and functional features

Lecture 34 Check Valve - Drawing

Section 12: Case study 11

Lecture 35 Special Flange - Intro and functional features

Lecture 36 Special Flange - Drawing

Lecture 37 Special Flange - Inspection

Section 13: Case study 12

Lecture 38 Rocker arm - Intro and Functional features

Lecture 39 Rocker arm - Drawing

Lecture 40 Rocker Arm - Inspection

Section 14: Case study 13

Lecture 41 Steering shaft mount- Intro , Functional features and assembly sequence

Lecture 42 Steering Shaft mount - Drawing

Lecture 43 Steering Shaft mount - Inspection

Design engineering professionals working on component design,Engineering students and aspirants looking to upgrade advanced tolerancing skills