Corrosion Protection Methods Course | IIT Kanpur | Metallurgy & Engineering
Course Details
| Exam Registration | 43 |
|---|---|
| Course Status | Ongoing |
| Course Type | Elective |
| Language | English |
| Duration | 8 weeks |
| Categories | Metallurgy and Material science & Mining Engineering |
| Credit Points | 2 |
| Level | Undergraduate |
| Start Date | 19 Jan 2026 |
| End Date | 13 Mar 2026 |
| Enrollment Ends | 02 Feb 2026 |
| Exam Registration Ends | 16 Feb 2026 |
| Exam Date | 29 Mar 2026 IST |
| NCrF Level | 4.5 — 8.0 |
Mastering Corrosion Protection: An Essential 8-Week Guide with IIT Kanpur
Corrosion is a relentless and costly adversary, silently degrading infrastructure, machinery, and assets across industries. From oil pipelines to power plants and construction steel, the battle against material degradation is constant. Understanding and implementing effective corrosion protection is not just an academic exercise—it's a critical economic and safety imperative.
To bridge the gap between theory and practical application, the Indian Institute of Technology Kanpur (IIT Kanpur) offers a focused, 8-week course titled "Corrosion Protection Methods." This undergraduate-level program is expertly designed and instructed by Prof. Kallol Mondal, an associate professor in the Department of Materials Science and Engineering. With specializations in phase transformations, corrosion behavior, and steel development, Prof. Mondal brings both deep academic knowledge and industry-relevant insight to this crucial subject.
Who Should Take This Course?
This course is meticulously crafted for a diverse audience seeking to fortify their understanding of corrosion control:
- Bachelor and Master Students in Metallurgy, Materials Science, Chemical, Civil, and Mechanical Engineering.
- Industry Professionals in sectors where corrosion poses significant operational and financial challenges.
- PhD Scholars and researchers focusing on corrosion science and related fields.
Prerequisites: A foundational understanding of Chemical Thermodynamics, Phase Transformation, and Electrochemistry is recommended to fully grasp the course concepts.
Why This Course is Critical for Industry
The principles taught in this course have direct applications in numerous sectors. The curriculum is designed with strong industry support in mind, addressing real-world problems faced by:
- Oil, Gas, and Petrochemical Companies
- Chemical Processing Plants
- Power Generation and Distribution Sector
- Construction and Infrastructure
- Steel Manufacturing and Fabrication
By completing this course, participants will learn to assess corrosion damage accurately and select the most suitable and cost-effective protection strategy—a skill highly valued in the industrial world.
Detailed 8-Week Course Layout
The course is structured to provide a logical and comprehensive journey from fundamental principles to advanced considerations.
| Week | Core Topic | Key Learning Points |
|---|---|---|
| Week 1 | Introduction | Overview of different corrosion protection methodologies. |
| Week 2 | Cathodic Protection | Principles, efficiency calculations, and materials used for this essential electrochemical technique. |
| Week 3 | Anodic Protection | Principles and calculation methods for protecting passive metals like stainless steel. |
| Week 4 | Protection by Design | How smart design practices can inherently prevent corrosion traps and failures. |
| Week 5 | Protection by Inhibitor | Mechanisms of corrosion inhibitors and a survey of different types used in industry. |
| Week 6 | Protection by Coating | The philosophy behind coatings, different coating routes, and application methods. |
| Week 7 | Protection by Change of Environment | How modifying the corrosive environment (e.g., deaeration, pH control) can mitigate damage. |
| Week 8 | Material & Microstructural Effects | The profound impact of alloying, microstructure, stress, and surface texture on corrosion resistance. |
Essential Reference Books & Resources
To complement the lectures, Prof. Mondal recommends a suite of authoritative texts that form the cornerstone of corrosion engineering literature:
- Corrosion Engineering by M.G. Fontana and V.D. Greene (McGraw Hill)
- An Introduction to Metallic Corrosion by U.R. Evans (Edward Arnold)
- Fundamentals of Corrosion by J.C. Scully (Pergamon Press)
- Principles of Corrosion Engineering and Corrosion Control by Z. Ahmed (Butterworth-Heinemann)
- Corrosion - Part I and Part II (MOOC Courses) - Kallol Mondal
- Corrosion Failures: Theories, Case studies and Solutions by K. Elayaperumal and V.S. Raja (John Wiley and Sons)
Conclusion: Building a Career on a Solid Foundation
Whether you are a student aiming to specialize in materials engineering, a researcher delving deeper into degradation mechanisms, or a professional tasked with safeguarding multimillion-dollar assets, this course offers a powerful toolkit. Under the guidance of Prof. Kallol Mondal of IIT Kanpur, you will move beyond theoretical concepts to master the practical application of corrosion protection methods that define reliability and longevity in engineering.
By understanding the full spectrum of options—from electrochemical protection (cathodic/anodic) and chemical solutions (inhibitors) to physical barriers (coatings), intelligent design, and material science—you will be equipped to make informed, effective decisions in the fight against corrosion.
Enroll Now →