MS4822 The Engineering and Science of Composite Materials

This course focuses on the structure-property correlation in composites utilizing a multi-disciplinary approach, covering the areas of materials science and engineering and solid mechanics. Emphasis is given to the theoretical constitutive behavior at the micro- and macro-levels, as well as on how such behavior can be altered by processing and service variables. The course is divided into three broad parts: (1) Theoretical predictions of composite properties; (2) Materials issues (including processing) complicating accurate performance prediction; and (3) Thermo-mechanical behavior in actual service conditions.

Prerequisite

ME3611, MS3202 or equivalent or by consent of instructor

Lecture Hours

Lab Hours

Course Learning Outcomes

Educational Objectives / Course Learning Outcomes
(Specific Knowledge, Skills & Abilities)

At the completion of the course students will be able to:

Analyze the structure-property correlation in composite materials using a multi-disciplinary approach that integrates materials science, engineering principles, and solid mechanics.
Understand theoretical constitutive behavior at both micro- and macro-levels in composite materials.
Evaluate how processing and service variables can alter the constitutive behavior and properties of composite materials.
Apply theoretical predictions to estimate composite material properties accurately.
Identify and address materials issues, including processing challenges, that complicate the prediction of composite material performance.
Assess the thermo-mechanical behavior of composite materials under actual service conditions.

These outcomes aim to equip students with the knowledge and skills necessary to understand, analyze, and predict the behavior of composite materials, considering both theoretical aspects and practical applications.