Engineering courses

 

Basic Geometric Dimensioning & Tolerancing (Basic GD&T)

Introduction

This course is designed for learners who have limited knowledge in the subject area. It covers basic knowledge and identification of interpretation of engineering drawing comprising geometrical dimensioning & tolerancing (GD&T).

Course Description
This course is designed for learners who have limited or no prior knowledge in the subject area. The course covers basic knowledge & identification of interpretation of engineering drawing, symbols and some modifiers.

Course Objectives
Learners will be able to acquire basic interpretation & understanding of engineering drawing comprising of Geometric Dimensioning & Tolerancing.

Course Outline
1. Introduction to GD&T
2. Introduction to drawing interpretation
3. Understand General Dimensioning & Tolerances
4. Understand Symbology
5. Interpret datum
6. Understand Tolerances of Form
7. Understand Tolerances of Orientation
8. Understand Tolerances of Location
9. Understand Tolerances of Runout
10. Understand Tolerances of Profile
11. Exercise & Assessment

Duration
2 days (9am to 5pm daily)

Who Should Attend
Mechanical Engineers and Designers
Quality Control and Assurance Personnel
Manufacturing Engineers
Machinists and Technicians
Inspectors and Toolmakers
Anyone involved in interpreting or creating engineering drawings

Course Fees per pax
S$ 1000.00

Award of Certificate

Upon completion of the course, you will receive a certificate of attendance.

Intermediate Geometric Dimensioning & Tolerancing (Int. GD&T)

Introduction
This course is designed for learners who have basic knowledge in GD&T. It covers from basic knowledge and applications at a more complex level of geometrical dimensioning & tolerancing (GD&T)Describe your program here.

Learning Objective
Learners will be able to have a progressive basic understanding of the principles and methods to a deeper
knowledge and applications at a more complex level of GD&T.

Duration
3 days (9am to 5pm daily)

Who Should Attend
Mechanical Engineers and Designers
Quality Control and Assurance Personnel
Manufacturing Engineers
Machinists and Technicians
Inspectors and Toolmakers
Anyone involved in interpreting or creating engineering drawings

Course Fees per pax
S$ 1500.00

Course Outline
1. Introduction to GD&T
2. Scope, Definition and General Dimensioning
3. Understand General Tolerances & Related Principles
4. Understand Symbology
5. Interpret datum
6. Understand Tolerances of Form
7. Understand Tolerances of Orientation
8. Understand Tolerances of Location
9. Understand Tolerances of Runout
10. Understand Tolerances of Profile
11. Case Studies and Gauging Design Concept exercise.

Award of Certificate

Upon completion of the course, you will receive a certificate of attendance.

Advanced Geometric Dimensioning & Tolerancing (Adv. GD&T)

Introduction

This course is designed for experienced practitioners who wish to deepen their skills in the specialized area. The course covers complex and specialized topics.

Learning Objective

Learners will be able to acquire a detailed understanding in order to translate knowledge and application at a more complex level of GD&T

Duration

3 days (9am to 5pm daily)

Who Should Attend

Mechanical Engineers and Designers

Quality Control and Assurance Personnel

Manufacturing Engineers

Machinists and Technicians

Inspectors and Toolmakers

Anyone involved in interpreting or creating engineering drawings

Course Fees per pax

S$ 1500.00

Course Outline

1. Introduction to GD&T

2. Scope, Definition and General Dimensioning

3. Understand Tolerances of Location

4. Understand Composite Position Tolerance

5. Understand Position of Coaxiality Control 

6. Case Studies

7. Design exercise.

Award of Certificate

Upon completion of the course, you will receive a certificate of attendance.

Design Tolerance Stack Analysis (DTSA)

Introduction

This course is designed for experienced practitioners with deep knowledge in GD&T and want to deepen their skills

 in the specialized area of tolerance stack.

Learning Objective

Learners will be able to further advance their skills, knowledge & application of GD&T which involves Design

 Tolerance Stack-Up analysis and calculation using worst-case analysis method to evaluate the accumulation effect

 of parts & assembly requirements. These skills and knowledge are vital in the Product Realization, Measurement,

 Analysis and Improvement and in the Quality Management System consisting of Product Requirements, DFMEA,

 Mechanical Fit & Mechanical Performance Requirements and Acceptance Criteria to prevent part & Assembly

 failure and to improve manufacturing efficiency.

Duration

3 days (9am to 5pm daily)

Who Should Attend

Mechanical Engineers and Designers

Quality Control and Assurance Personnel

Manufacturing Engineers

Machinists and Technicians

Inspectors and Toolmakers

Anyone involved in interpreting or creating engineering drawings

Course Fees per pax

S$ 1500.00

Course Outline

Introduction

Understand Tolerance Analysis

Understand Types of Tolerance Stack

Understand Overcoming Tolerance Stack

Understand Design Tolerance Analysis and Calculation

Apply Tolerance Stack-Up Analysis and  Calculation with GD&T

Tolerance Stack-Up exercises and case studies

Award of Certificate

Upon completion of the course, you will receive a certificate of attendance.

Applied Reliability Engineering

Introduction

This course will provide participants with the knowledge and skills required for systematic understanding of reliability engineering concept with industry applications. The course covers the fundamental reliability concept and methodology to improve product reliability and system maintainability.

Learning Objective

- Gain fundamental knowledge of reliability engineering and

maintainability concept

- Ability to acquire the skills of applying the concept in practical

application

- Increase awareness of methodology to improve product reliability and

equipment system maintainability

Duration

2 days (9am to 5pm daily)

Who Should Attend

Management, Professionals, Quality Assurance, Process Engineering,

Maintenance, Research and Development Personnel who are involved in

product and process design, quality assurance and maintenance activities.

Course Fees per pax

S$ 510.00

Course Contents

Day 1

1. An overview of quality and reliability and its interrelationship

2. Role of the reliability function in product and process life cycle development

3. Product safety, failure consequence and liability management

4. Reliability program management

5. Basic probability and statistical concepts

6. Basic Statistical Process Control (SPC) as foundation of quality and reliability

7. MTBF, MTTF, terms, computation and interpretation

Day 2

8. Failure rates and the bathtub model

9. Reliability modelling

10. Reliability predictions using Weibull

11. Product reliability qualification

12. Reliability testing and physics of failure

13. Failure analysis tools and techniques

14. Maintenance and availability

Award of Certificate

Upon completion of the course, you will receive a certificate of attendance.

Calibration

Introduction

This course will provide participants with the knowledge and skills required for identifying, organising and controlling calibration activities carried out for Inspection, Measuring and Test Equipment.

Learning Objective

• Gain fundamental knowledge of calibration system

• Ability to acquire the skills of interpreting the output of calibration

• Equipped with guidance related to measurement uncertainty

Duration

2 days (9am to 5pm daily)

Who Should Attend

Management, Professionals, Quality Control, Quality Assurance, Technical and

Engineering Personnel who are involved in managing testing and calibration

activities.

Course Fees per pax

S$ 510.00

Course Contents

Day 1

1. Understand ISO9001 and ISO/IEC 17025

2. Scope of application of calibration system

3. Management requirements of ISO/IEC 17025

4. Technical requirements of ISO/IEC 17025

5. Need for reliable measurement

6. Metrological classification

7. Measurement of data and statistics

8. The characteristics of statistical data

Day 2

9. Risk associated with statistical decision making

10. Measurement error

11. Precision and accuracy

12. International measurement systems and measurement standard

13. Measurement uncertainty

14. Random uncertainty

15. Estimation of systematic uncertainty

16. Overall uncertainty

17. Guide to the expression of uncertainty of measurement

Award of Certificate

Upon completion of the course, you will receive a certificate of attendance.