Materials Science, Metallurgy, and Polymer Engineering

Course Info

Length: 1 Week

City: Singapore

Type: In Classroom

Available Dates

  • Mar-31-2025

    Singapore

  • June-30-2025

    Singapore

  • Sep-29-2025

    Singapore

  • Dec-29-2025

    Singapore

Dates in Other Venues

  • Dec-30-2024

    Paris

  • Dec-30-2024

    Dubai

  • Jan-13-2025

    Dubai

  • Feb-10-2025

    London

  • Mar-31-2025

    Istanbul

  • Mar-31-2025

    Paris

  • Mar-31-2025

    Barcelona

  • Mar-31-2025

    Kuala Lumpur

  • Mar-31-2025

    Amsterdam

  • Mar-31-2025

    Dubai

  • Apr-14-2025

    London

  • May-12-2025

    Dubai

  • June-30-2025

    Amsterdam

  • June-30-2025

    Paris

  • June-30-2025

    Istanbul

  • June-30-2025

    Kuala Lumpur

  • June-30-2025

    Barcelona

  • June-30-2025

    London

  • July-14-2025

    Dubai

  • Aug-11-2025

    London

  • Sep-29-2025

    Amsterdam

  • Sep-29-2025

    Dubai

  • Sep-29-2025

    Barcelona

  • Sep-29-2025

    Paris

  • Sep-29-2025

    Istanbul

  • Sep-29-2025

    Kuala Lumpur

  • Oct-13-2025

    London

  • Nov-10-2025

    Dubai

  • Dec-29-2025

    Barcelona

  • Dec-29-2025

    Paris

  • Dec-29-2025

    Istanbul

  • Dec-29-2025

    London

  • Dec-29-2025

    Kuala Lumpur

  • Dec-29-2025

    Amsterdam

Course Details

Course Outline

5 days course

Fundamentals of Materials Science

  • Atomic Structure and Bonding
  • Introduction to crystal structures
  • Crystallographic planes and directions
  • Crystal defects and their impact on materials
  • Material Properties and Testing
  • Mechanical, thermal, and electrical properties
  • Testing methods and equipment
  • Case studies on material characterization

Metallurgy and Alloy Design

  • Key metallurgical processes
  • Alloy classification and design principles
  • Phase diagrams and microstructures
  • Heat treatment and its effects on alloys
  • Stress-strain relationships
  • Deformation mechanisms
  • Strengthening mechanisms in metals

Polymer Engineering Basics

  • Polymerization techniques
  • Classification of polymers
  • Molecular weight and structure
  • Mechanical and thermal properties of polymers
  • Case studies on polymer fabrication
  • Emerging trends in polymer technology

Advanced Materials and Composites

  • Nanomaterials and their properties
  • Smart materials and their applications
  • Basics of composite materials
  • Types of reinforcement and matrices
  • Applications of composite materials
  • Case studies on advanced material characterization

Integration and Future Directions

  • Interdisciplinary approaches in materials engineering
  • Insights into current challenges
  • Overview of current trends in materials engineering
  • Opportunities for further research and innovation

Course Video