The objectives and responsibilities

To develop the ability to design products and machinery with high precision. To understand and solve problems related to automation control systems. To comprehend issues concerning electric energy consumption, the operation of various types of AC/DC motors, and the necessary operating conditions for automated factory processes. To prepare students to face future challenges in the field of precision machinery manufacturing engineering.

Fundamentals of Precision Engineering

Introduction to precision measurement
Tolerances and fits
Metrology principles

Mechanical Design and Manufacturing

Precision machine design
Manufacturing processes for high-accuracy components
CNC machining and tooling

Measurement and Instrumentation

Precision measurement instruments
Sensors and transducers
Calibration techniques

Automation and Control Systems

Automated manufacturing systems
Control theory and applications
Robotics basics

Materials Science and Surface Engineering

Material properties affecting precision
Surface finishing and treatment techniques

Computer-Aided Design and Manufacturing (CAD/CAM)

CAD modeling
CAM programming for precision machining

Quality Assurance and Statistical Process Control

Quality control methods
Statistical analysis for manufacturing processes

Microsystems and Nanotechnology

Microfabrication techniques
Applications of nanotechnology in precision engineering

Practical Laboratory Work

Hands-on experience with precision instruments and manufacturing equipment
Real-world project implementation

Where You Can Learn

In the Department of Precision Engineering, Laboratories have been established to allow students to gain practical knowledge of the precision and automation technologies required in industrial operations.

Hover over or tap a skill to see a brief description.

Metrology Laboratory

Mechanical Manufacturing Laboratory

Automation and Control Laboratory

Materials and Surface Engineering Laboratory

CAD/CAM Laboratory

Quality Control Laboratory

What You Will Learn After B.E. Course

Our Bachelor of Engineering curriculum is designed to prepare you for the real world with these key advantages.

Accurate Mechanical Design Skills

Automation System Development

Quality Control and Assurance

Problem-Solving and Innovation

Research and Development Skills

CAD/CAM Proficiency

Material Science Understanding

Teamwork and Communication

Practical Hands-On Experience

Professional Ethics and Standards

Career Paths & Job Opportunities

Graduates with a B.E. in Mechanical Precision and Automation can work in Industrial Automation firms, Consumer Goods manufacturers, Automotive industry companies, Precision Tool and Equipment manufacturers, and similar organizations.