Smart Materials Science for Digital Manufacturing

Fundamentals of Smart Materials

Learn how next-gen materials are transforming digital manufacturing, Industry 4.0, and sustainable innovation.

What you’ll learn

• Understand the fundamentals of smart materials.
• Explore key smart materials such as piezoelectric materials, shape memory alloys, electrochromic and self-healing materials..
• Gain insights into materials used in additive manufacturing.
• Learn how AI and machine learning accelerate material discovery.
• Understand Digital Twin technology.

Course Content

• Fundamentals of Smart Materials –> 7 lectures • 1hr 17min.
• Materials for Additive & Advanced Manufacturing –> 5 lectures • 1hr 10min.
• Material Informatics & Digital Twin Integration –> 4 lectures • 1hr 15min.
• Sustainability & the Future of Smart Materials –> 4 lectures • 1hr 17min.

Requirements

Learn how next-gen materials are transforming digital manufacturing, Industry 4.0, and sustainable innovation.

Unlock the power of smart materials and their role in shaping the future of digital manufacturing. This 5-6 hour video-based course is designed for engineers, researchers, and professionals eager to explore cutting-edge material science integrated with AI, additive manufacturing, and digital twin technologies.

 

What You’ll Learn

• Fundamentals of smart materials: piezoelectrics, shape memory alloys, self-healing materials
• Applications of AI in material discovery and performance prediction
• Advanced materials for 3D printing and nanotechnology in manufacturing
• Integration of digital twin and IoT for real-time material monitoring
• Sustainability: bio-based polymers, recyclable composites, and green coatings

 

Who Should Enroll
Engineers, product designers, material scientists, and tech-forward professionals looking to upskill in smart manufacturing and future-ready technologies.

 

Modules Overview

1. Fundamentals of Smart Materials
2. Materials for Additive & Advanced Manufacturing
3. Material Informatics & Digital Twin Integration
4. Sustainability & the Future of Smart Materials

 

Skills You’ll Gain

• Material informatics
• Smart manufacturing integration
• Digital twin modeling
• AI-driven material design
• Sustainable material practices

This course is ideal for:

• Engineering Students – Especially those in mechanical, materials, manufacturing, aerospace, or robotics streams looking to gain future-ready skills.
• Industry Professionals – Engineers and technicians working in manufacturing, R&D, or production who want to upskill in smart materials and digital technologies.
• Researchers & Innovators – Individuals involved in material science, nanotechnology, or AI-driven product development.
• Product Designers – Those interested in using advanced materials for next-gen products and sustainability.
• Edtech Learners & Upskillers – Anyone passionate about Industry 4.0, additive manufacturing, or sustainable engineering.

 

Join the revolution in digital manufacturing with smart materials.
Prepare for the future—build smarter, stronger, and more sustainable products.