Singapore University of Social Sciences

Introduction to Engineering Materials and Aeromaterials

Introduction to Engineering Materials and Aeromaterials (EAS107)

Applications Open: 01 May 2024

Applications Close: 15 June 2024

Next Available Intake: July 2024

Course Types: Modular Undergraduate Course

Language: English

Duration: 6 months

Fees: $1844.26 View More Details on Fees

Area of Interest: Science and Technology

Schemes: Alumni Continuing Education (ACE)

Funding: To be confirmed

School/Department: School of Science and Technology


The course will provide students the basic foundation on the characteristics and applications of the more commonly used materials in the engineering and aerospace industries, including ferrous and non-ferrous metals, ceramic materials, polymers and composites. The various material designation systems will be covered as this will facilitate materials selection. The significance of mechanical behaviours in the performance of the materials and the test methods to determine these behaviours will be taught. The effects of mechanical, thermal and thermo-mechanical treatments on properties will be examined. These include cold and hot working, solidification and heat treatment processes. Phase diagrams will be used to explain the transformations which occur when materials are being strengthened. Imperfections in atomic arrangements, diffusion mechanisms and their applications in materials processing will also be highlighted.

Level: 1
Credit Units: 5
Presentation Pattern: EVERY REGULAR SEMESTER


  • Atomic & Ionic Imperfections and Movements in Materials
  • Mechanical Properties, Strain Hardening and Annealing
  • Principles of Solidification and Phase Equilibrium
  • Dispersion Strengthening, Eutectic Phase Diagrams and Phase Transformations
  • Heat Treatment of Steels, Nonferrous Alloys and Composites
  • Ceramic Materials and Polymers

Learning Outcome

  • Describe characteristics and applications of common engineering and aero materials.
  • Recall how the behaviours of the materials may be altered.
  • Interpret mechanical tests results to determine properties of the materials.
  • Identify methods to enhance the properties of the materials.
  • Execute metallographic preparation and examination.
  • Apply heat treatment to alter properties of metals.
  • List common mechanical testing.
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