Geometric Dimensioning And Tolerancing

GD&T (Basic & Intermediate level)

What you'll learn
Learn the 14 GD&T symbols, their requirements and key terms in GD&T
In depth knowledge of Tolerance zones and limitations
Application of GD&T to drawings
Enables to communicate design requirements clearly that helps in saving cost and time
Requirements
No prior experience is required to learn GD&T. After learning the tool, it can be implemented in any software
Description
GD&T will help your company improve drawings, designs, and communication between engineers and suppliers. This training is essential to anyone who produces or interprets mechanical part drawings. After learning the tool you can implement it in any relevant software. This system is more powerful than the traditional dimensioning and tolerancing. Mechanical Industry ranging from Design, Quality, Production, Maintenance require detailed knowledge of GD&T.The best design in the world is worthless if it cannot be produced!The GD&T methodology is currently employed across many industries like automotive, heavy machinery, electronics, medical, defense, consumer goods, aviation and others.Goemetric Dimensioning and Tolerancing is an international language that is used on engineering drawings to accurately describe the size, form , orientation, location of part features. Since GD&T is drawn using line drawings, symbols and Arabic numerals, people everywhere can read write and understand it regardless of their native tongues.This is a very comprehensive Course where we teach you the GD&T as prescribed in the ASME Y14.5-2009 Standard which is the need of the hour in Industries.You'll get an in-depth explanation of geometric symbols, including each symbol's requirements, tolerance zones, and limitations. The class includes a comparison of GD&T to coordinate tolerancing; an explanation of tolerance zones; Rules #1 and #2; form and orientation controls; tolerance of position; runout and profile controls.

Overview

Section 1: Introduction

Lecture 1 Introduction

Lecture 2 Brief History

Lecture 3 Co-Ordinate Dimensioning System

Lecture 4 Intro to GD&T

Lecture 5 What is Y14.5

Lecture 6 GD&T Symbols

Lecture 7 2-3-4 Approach

Section 2: Fundamental Rules

Lecture 8 Fundamental Rule a

Lecture 9 Fundamental Rule e

Lecture 10 Fundamental Rule i

Lecture 11 Fundamental Rule j

Lecture 12 Fundamental Rule k

Lecture 13 Fundamental Rule l

Section 3: Key Terms

Lecture 14 Feature

Lecture 15 Feature Of Size

Lecture 16 Regular Feature Of Size

Lecture 17 Irregular Feature Of Size

Lecture 18 FOS Identification

Lecture 19 Material Conditions

Lecture 20 Actual Local Size

Lecture 21 Actual Mating Envelope

Lecture 22 Feature Control Frame

Lecture 23 Worst Case Boundaries

Section 4: General Rules

Lecture 24 Rule#1

Lecture 25 Exemption to Rule#1

Lecture 26 Rule#2

Section 5: Form Control

Lecture 27 Straightness Surface

Lecture 28 Straightness Verification

Lecture 29 Straightness on Prismatic Surface

Lecture 30 Straightness FOS

Lecture 31 Straightness FOS Dynamic tolerance dia

Lecture 32 Straightness Exercise

Lecture 33 Flatness Surface

Lecture 34 Flatness surface Verification

Lecture 35 Flatness FOS

Lecture 36 Flatness Exercise

Lecture 37 Circularity

Lecture 38 Circularity Verification

Lecture 39 Circularity Exercise

Lecture 40 Cylindricity

Lecture 41 Cylindricity - Verification

Lecture 42 Cylindricity Exercise

Section 6: Datum

Lecture 43 Datum Introduction

Lecture 44 Datum Reference Frame

Lecture 45 321 Principle

Lecture 46 Planar Datums

Lecture 47 Width datum

Lecture 48 Axis Datum

Lecture 49 Spherical Surface Datum

Lecture 50 Conical Surface Datum

Lecture 51 Linear Extrusion datum

Lecture 52 Complex Feature Datum

Lecture 53 Datum Targets

Section 7: Orientation Control

Lecture 54 Angularity Feature

Lecture 55 Angularity - FOS Center Plane

Lecture 56 Angularity - FOS Axis

Lecture 57 Angularity Verification

Lecture 58 Perpendicularity - Feature

Lecture 59 Perpendicularity - FOS Center Plane

Lecture 60 Perpendicularity - FOS Axis

Lecture 61 Parallelism - Feature

Lecture 62 Parallelism - FOS Center Plane

Lecture 63 Parallelism - FOS Axis

Lecture 64 Alternate Practice

Section 8: Tolerance of Location

Lecture 65 Tolerance of Position-l

Lecture 66 Tolerance Of Position-ll

Lecture 67 TOP Verification

Lecture 0 Top Verification Excel

Lecture 68 Concentricity

Lecture 69 Symmetry

Section 9: Runouts

Lecture 70 Radial Runout

Lecture 71 Total Runout

Lecture 72 Face Runout

Section 10: Profile Control

Lecture 73 Profile

Lecture 74 Profile Equally Disposed

Lecture 75 Profile between Modifier

Lecture 76 Profile Unilateral Inside

Lecture 77 Profile Unilateral Outside

Lecture 78 Profile Unequally Disposed

Lecture 79 Profile of a Line

Any freshers, experienced design engineers, quality inspectors, and those looking for a change over in job(interview tips)