Basics Of Gd & T (Geometric Dimensioning And Tolerancing)

GD & T: For Design, Manufacturing and Inspection

What you'll learn

Fundamental GD&T principles, including datums and tolerance zones.

How to Read Technical Drawing?

Advanced GD&T concepts like form, orientation, and position controls.

Level 1 to Level 4 Control in GD & T

Requirements

No any Requirement

Description

(Designed by the Subject Experts and Voice Narrated by Voice Over artist for better engagement.)Learn the common language of Designing, Production, and Quality Engineer, known as Geometric Dimension and tolerancing.In this course, students will learn how to use a special language called Geometric Dimensioning and Tolerancing (GD&T) to communicate precise instructions for making parts. You'll understand the basics, learn advanced techniques, and practice using GD&T on real engineering drawings. You'll also discover how to make sure parts fit together correctly and learn about the latest industry standards. GD&T is widely used in industries like aerospace, automotive, manufacturing, and others where precise engineering and manufacturing processes are critical. It helps reduce ambiguity, allows for more efficient manufacturing, and ultimately leads to higher quality products.For example, instead of simply specifying a hole's diameter, GD&T might be used to define not only the diameter but also its acceptable variation, its position relative to other features, and its relationship to a datum feature. This level of detail ensures that parts fit together precisely as intended in an assembly.About Us:This Course is Designed by the Subject Experts and Narrated by VO artist for better engagement. GaugeHow is a Ed-tech Platform for Mechanical Engineering Students by the Engineering Industry Experts.Thanks and See you in the Course

Overview

Section 1: Course Introduction

Lecture 1 Quick Overview

Lecture 2 What is GD and T?

Lecture 3 Why Use GD & T?

Lecture 4 How GD and T works?

Section 2: Tolerances

Lecture 5 Tolerances

Lecture 6 Tolerances Zone

Lecture 7 Form of Tolerances Zone

Lecture 8 Part Features

Lecture 9 Symbols

Lecture 10 Features of Size

Lecture 11 FCF Placement

Lecture 12 Part Features

Lecture 13 Advanced Topic (Location and Orientation of Tolerances)

Section 3: Datum

Lecture 14 DRF (Datum Reference Frame)

Lecture 15 Types of Datum

Lecture 16 Datum Feature vs Plane

Lecture 17 Axes and Median faces

Section 4: Non-Rigid Part

Lecture 18 Non-Rigid Part

Lecture 19 Feature of Size

Section 5: Level-1 Control

Lecture 20 Size Limit Boundary

Lecture 21 Material Condition

Lecture 22 Modifier Symbol

Section 6: Level 2 to 4 Control

Lecture 24 Level 2 Control

Lecture 25 Level 3 Control

Lecture 26 Level 4 Control

Section 7: Control Methods

Lecture 27 Method for RFS

Lecture 28 Use-case of Material Condition Modifier

Lecture 29 Size limit or Level 1 Control

Lecture 30 Form only Tolerance or Level 2 Control

Lecture 31 Orientation Tolerance or Level 3 Control

Lecture 32 Notes: The 24 Cases

Lecture 33 Position Tolerance or Level 4 Control

Section 8: Other Tolerance

Lecture 34 Runout Tolerance

Lecture 35 Profile Tolerance

Lecture 36 Symmetry Tolerance

Lecture 37 Combining FCF

Section 9: Standard ASME Y 14.5

Lecture 38 ASME Y 14.5 2018

Lecture 39 Different between ASME Y 14.5 2018 and ASME Y 14.5 2009

Engineers, designers, and technicians involved in product design, manufacturing, quality control, and inspection processes.,Mechanical Engineering Students and Engineers,Industrial Engineering Students and Engineers