Syllabus Application
MAT 68003
Special Topics in MAT: Failure Analysis
Faculty
Faculty of Engineering and Natural Sciences
Semester
Spring 2025-2026
Course
MAT 68003 -
Special Topics in MAT: Failure Analysis
Time/Place
Time
Week Day
Place
Date
12:40-15:30
Tue
FENS-2019
Feb 16-May 22, 2026
Level of course
Masters
Course Credits
SU Credit:3, ECTS:10
Prerequisites
-
Corequisites
-
Course Type
Lecture
Instructor(s) Information
Kaan Bilge
- Email: kaan.bilge@sabanciuniv.edu
Course Information
Catalog Course Description
This course introduces the fundamental concepts of the failure analysis methods and tools of engineering components. Topics include analysis of broken components by macroscopic and microscopic observation, review of common experimental methods used in failure analysis, specific description of failure mechanisms of composite, metallic, ceramics, and polymeric materials. Throughout the classes, students are expected to gain an understanding of these subjects, and how they are applied in industrial applications
Course Learning Outcomes:
Course Objective
Learning outcomes:
By the end of the course, students will be able to:
Structure a failure investigation using a hypothesis–evidence–decision workflow.
Distinguish brittle/ductile, overload/fatigue, environment-assisted, and process-induced failures from fractographic and contextual evidence.
Apply core fracture mechanics concepts (stress concentration, LEFM basics, crack growth logic) at an engineering level.
Select fit-for-purpose tests/standards and recognize common pitfalls and confounders.
Document microscopy and fractography correctly (scale, orientation, ROI logic, traceability).
Produce a concise, defensible failure analysis report with corrective/preventive actions.
Teaching & learning methods
Short lectures + worked case studies (industry-style)
In-class microscopy/fractography “micro-labs” (stereo/optical)
At least two SEM-oriented session (demo/rotation or instructor-led image set)
Team-based “case file” project (evidence pack → report → defense)
By the end of the course, students will be able to:
Structure a failure investigation using a hypothesis–evidence–decision workflow.
Distinguish brittle/ductile, overload/fatigue, environment-assisted, and process-induced failures from fractographic and contextual evidence.
Apply core fracture mechanics concepts (stress concentration, LEFM basics, crack growth logic) at an engineering level.
Select fit-for-purpose tests/standards and recognize common pitfalls and confounders.
Document microscopy and fractography correctly (scale, orientation, ROI logic, traceability).
Produce a concise, defensible failure analysis report with corrective/preventive actions.
Teaching & learning methods
Short lectures + worked case studies (industry-style)
In-class microscopy/fractography “micro-labs” (stereo/optical)
At least two SEM-oriented session (demo/rotation or instructor-led image set)
Team-based “case file” project (evidence pack → report → defense)
Sustainable Development Goals (SDGs) Related to This Course:
| Industry, Innovation and Infrastructure |
Course Materials
Resources:
Resources
Lecture notes (via SUCourse)
Prepared course case studies (distributed during the semester)
Selected published/public case studies (e.g., Titanic, OceanGate)
Key technical references :
Greenhalgh, E. S. (ed.), Failure Analysis and Fractography of Polymer Composites (Woodhead/Elsevier).
Hayes, M. D.; Edwards, D. B.; Shah, A. R., Fractography in Failure Analysis of Polymers, 2nd ed. (Elsevier, 2024).
Quinn, G. D., NIST Recommended Practice Guide: Fractography of Ceramics and Glasses, 3rd ed. (NIST SP 960-16e3, 2020).
ASM Handbook, Volume 12: Fractography (ASM International) — metals-focused fractography reference.
Lecture notes (via SUCourse)
Prepared course case studies (distributed during the semester)
Selected published/public case studies (e.g., Titanic, OceanGate)
Key technical references :
Greenhalgh, E. S. (ed.), Failure Analysis and Fractography of Polymer Composites (Woodhead/Elsevier).
Hayes, M. D.; Edwards, D. B.; Shah, A. R., Fractography in Failure Analysis of Polymers, 2nd ed. (Elsevier, 2024).
Quinn, G. D., NIST Recommended Practice Guide: Fractography of Ceramics and Glasses, 3rd ed. (NIST SP 960-16e3, 2020).
ASM Handbook, Volume 12: Fractography (ASM International) — metals-focused fractography reference.