Modules / Lectures
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noc20_mm04_assigment_1noc20_mm04_assigment_1
noc20_mm04_assigment_2noc20_mm04_assigment_2
noc20_mm04_assigment_3noc20_mm04_assigment_3
noc20_mm04_assigment_4noc20_mm04_assigment_4
noc20_mm04_assigment_5noc20_mm04_assigment_5
noc20_mm04_assigment_6noc20_mm04_assigment_6
noc20_mm04_assigment_7noc20_mm04_assigment_7
noc20_mm04_assigment_8noc20_mm04_assigment_8
noc20_mm04_assigment_9noc20_mm04_assigment_9


Sl.No Chapter Name MP4 Download
1Lecture -1: Introduction to corrosion - IDownload
2Lecture-2: Introduction to corrosion - IIDownload
3Lecture-3: Types and forms of corrosion Download
4Lecture-4: Uniform and Galvanic corrosion Download
5Lecture-5: Crevice and Pitting corrosionDownload
6Lecture-6 Forms of corrosion: Explanation with ExamplesDownload
7Lecture-7 Electrochemical Nature of Corrosion and its Thermodynamics Download
8Lecture-8 Thermodynamics aspects of corrosion-IDownload
9Lecture-9 Thermodynamics aspects of corrosion-IIDownload
10Lecture-10 Thermodynamics aspects ofcorrosion-III Download
11Lecture-11: Relation Between Free Energy and Equilibrium ConstantDownload
12Lecture-12: Derivation of Nernst EquationDownload
13Lecture-13: Standard Reduction Potential Series for Pure MetalsDownload
14Lecture-14: Reduction Potentials in Acidic and Neutral SolutionsDownload
15Lecture-15: Nernst equation in terms of pHDownload
16Lecture-16: Limitations of Standard Reduction Potential Series of Pure Metals Download
17Lecture-17: Concentration Cell Formation and Galvanic SeriesDownload
18Lecture-18: Examples of Concentration cell and Spontaneity of Corrosion ProcessDownload
19Lecture-19: Spontaneity of Corrosion Process and Introduction to Pourbaix DiagramDownload
20Lecture-20: Construction of Pourbaix DiagramDownload
21Lecture 21-Construction of Pourbaix diagram for Ni-H2O system-I Download
22Lecture 22-Construction of Pourbaix diagram for Ni-H2O system-IIDownload
23Lecture 23-Construction of Pourbaix diagram for Ni-H2O system-IIIDownload
24Lecture 24- Pourbaix diagram of Ni-H2O and AI-H2O Download
25Lecture 25-Inferences from Pourbaix diagram of Fe-H2O and AI-H2O Download
26Lecture 26 : Estimation of Corrosion Rate - IDownload
27Lecture 27: Estimation of Corrosion Rate - IIDownload
28Lecture 28: Estimation of corrosion Rate -IIIDownload
29Lecture 29: Exchange current DensityDownload
30Lecture 30: Exchange current Density and Standard hydrogen electrodeDownload
31Lecture 31: Electrical Double Layer and PolarizationDownload
32Lecture 32: Correlation between Current Density and OvervoltageDownload
33Lecture 33: Introduction to Buttler-Volmer EquationDownload
34Lecture 34: Derivation of Tafel EquationDownload
35Lecture 35: Tafel Plot and Activation PolarizationDownload
36lecture-36 Activation polarization, concentration polarization and total polarizationDownload
37Lecture-37 Summary of concentration polarization (CP) and introduction to mixed potential theory-IDownload
38Lecture-38 Mixed potential theory-IIDownload
39Lecture-39 Understanding of mixed potential theory through the case studies and events of corrosion-IDownload
40Lecture 40 Understanding of mixed potential theory through the case studies and events of corrosion-IIDownload
41Lecture 41 Understanding of mixed potential theory through the case studies and events of corrosion-IIIDownload

Sl.No Chapter Name English
1Lecture -1: Introduction to corrosion - IDownload
Verified
2Lecture-2: Introduction to corrosion - IIDownload
Verified
3Lecture-3: Types and forms of corrosion Download
Verified
4Lecture-4: Uniform and Galvanic corrosion Download
Verified
5Lecture-5: Crevice and Pitting corrosionDownload
Verified
6Lecture-6 Forms of corrosion: Explanation with ExamplesDownload
Verified
7Lecture-7 Electrochemical Nature of Corrosion and its Thermodynamics Download
Verified
8Lecture-8 Thermodynamics aspects of corrosion-IDownload
Verified
9Lecture-9 Thermodynamics aspects of corrosion-IIDownload
Verified
10Lecture-10 Thermodynamics aspects ofcorrosion-III Download
Verified
11Lecture-11: Relation Between Free Energy and Equilibrium ConstantDownload
Verified
12Lecture-12: Derivation of Nernst EquationDownload
Verified
13Lecture-13: Standard Reduction Potential Series for Pure MetalsDownload
Verified
14Lecture-14: Reduction Potentials in Acidic and Neutral SolutionsDownload
Verified
15Lecture-15: Nernst equation in terms of pHDownload
Verified
16Lecture-16: Limitations of Standard Reduction Potential Series of Pure Metals Download
Verified
17Lecture-17: Concentration Cell Formation and Galvanic SeriesDownload
Verified
18Lecture-18: Examples of Concentration cell and Spontaneity of Corrosion ProcessDownload
Verified
19Lecture-19: Spontaneity of Corrosion Process and Introduction to Pourbaix DiagramDownload
Verified
20Lecture-20: Construction of Pourbaix DiagramDownload
Verified
21Lecture 21-Construction of Pourbaix diagram for Ni-H2O system-I Download
Verified
22Lecture 22-Construction of Pourbaix diagram for Ni-H2O system-IIDownload
Verified
23Lecture 23-Construction of Pourbaix diagram for Ni-H2O system-IIIDownload
Verified
24Lecture 24- Pourbaix diagram of Ni-H2O and AI-H2O Download
Verified
25Lecture 25-Inferences from Pourbaix diagram of Fe-H2O and AI-H2O Download
Verified
26Lecture 26 : Estimation of Corrosion Rate - IDownload
Verified
27Lecture 27: Estimation of Corrosion Rate - IIDownload
Verified
28Lecture 28: Estimation of corrosion Rate -IIIDownload
Verified
29Lecture 29: Exchange current DensityDownload
Verified
30Lecture 30: Exchange current Density and Standard hydrogen electrodeDownload
Verified
31Lecture 31: Electrical Double Layer and PolarizationDownload
Verified
32Lecture 32: Correlation between Current Density and OvervoltageDownload
Verified
33Lecture 33: Introduction to Buttler-Volmer EquationDownload
Verified
34Lecture 34: Derivation of Tafel EquationDownload
Verified
35Lecture 35: Tafel Plot and Activation PolarizationDownload
Verified
36lecture-36 Activation polarization, concentration polarization and total polarizationDownload
Verified
37Lecture-37 Summary of concentration polarization (CP) and introduction to mixed potential theory-IDownload
Verified
38Lecture-38 Mixed potential theory-IIDownload
Verified
39Lecture-39 Understanding of mixed potential theory through the case studies and events of corrosion-IDownload
Verified
40Lecture 40 Understanding of mixed potential theory through the case studies and events of corrosion-IIDownload
Verified
41Lecture 41 Understanding of mixed potential theory through the case studies and events of corrosion-IIIDownload
Verified


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