14 Functionalized thin film coatings for reinforced concrete engineering
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Humira Assad
Abstract
The possibility of concrete’s steel reinforcement (SR) corroding has long been a source of concern. Corrosion can still only be mitigated to a limited extent, despite having a significant negative influence on the infrastructural strength and service life. Numerous techniques have been developed with the aim of reducing the decomposition of metals and extending their serviceability. The techniques comprise coating the concrete substrate, coating the reinforcement, using alternative reinforcement, using corrosion inhibitors, etc. Moreover, surface functionalization is a technique that can be used to cut the connection between the destructive substances and the metal substances, outspreading the useful lifespan of the constituents. Nevertheless, in some difficult service conditions, a physical barrier may not be enough to guarantee the protracted performance of reinforced concrete. Generally, the deterioration of materials can be effectively prevented by applying a robust and resilient coating as a physical barrier. In this situation, it is crucial to give coating the appropriate functional qualities such as superhydrophobicity and self-healing qualities. In this chapter, we outline novel methods for studying corrosion processes from a fundamental perspective as well as the preparation techniques and the protective methods of functional coatings (FCs). Additionally, a prospective exploration route is briefly suggested to help steer practical methods and stimulate additional discoveries.
Abstract
The possibility of concrete’s steel reinforcement (SR) corroding has long been a source of concern. Corrosion can still only be mitigated to a limited extent, despite having a significant negative influence on the infrastructural strength and service life. Numerous techniques have been developed with the aim of reducing the decomposition of metals and extending their serviceability. The techniques comprise coating the concrete substrate, coating the reinforcement, using alternative reinforcement, using corrosion inhibitors, etc. Moreover, surface functionalization is a technique that can be used to cut the connection between the destructive substances and the metal substances, outspreading the useful lifespan of the constituents. Nevertheless, in some difficult service conditions, a physical barrier may not be enough to guarantee the protracted performance of reinforced concrete. Generally, the deterioration of materials can be effectively prevented by applying a robust and resilient coating as a physical barrier. In this situation, it is crucial to give coating the appropriate functional qualities such as superhydrophobicity and self-healing qualities. In this chapter, we outline novel methods for studying corrosion processes from a fundamental perspective as well as the preparation techniques and the protective methods of functional coatings (FCs). Additionally, a prospective exploration route is briefly suggested to help steer practical methods and stimulate additional discoveries.
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Contents VII
- List of contributing authors IX
- 1 An overview of corrosion and functionalized thin film coating 1
- 2 Functionalized thin film coatings: fabrication strategies, synthesis, and characterization 21
- 3 Functionalized thin film coatings: basics, properties, and applications 39
- 4 Functionalized superhydrophobic surface and thin film coatings for corrosion protection 53
- 5 Porous materials-based functionalized thin film coatings as corrosion inhibitors 85
- 6 Functionalized conductive polymer-based thin film coating as corrosion inhibitors 115
- 7 Functionalized nanomaterials/nanocomposites-based thin film coatings as corrosion inhibitors 159
- 8 Functionalized carbon allotropes-based thin film coatings as corrosion inhibitors 173
- 9 Metal-organic frameworks (MOFs)-based functionalized thin film coating for corrosion protection 199
- 10 Functionalized quantum dots/carbonaceous quantum dots-based thin film coating as corrosion inhibitor 227
- 11 Functionalized hybrid sol–gel thin film coatings for corrosion inhibition 263
- 12 Incorporating microcapsules-embedded corrosion inhibitor in functionalized thin film coatings 293
- 13 Surface functionalized bio ceramic coatings for anti-corrosion performance 331
- 14 Functionalized thin film coatings for reinforced concrete engineering 347
- 15 Modeling of SH waves in a functionally graded piezo-poroelastic structure with sensitive coating in presence of point source of disturbance 369
- 16 Functionalized thin film coatings for automotive coatings 385
- 17 Influence of inorganic/organic additives on mechanical and electrochemical properties of functionalized thin film coatings 403
- 18 Role of surface functionalization on corrosion resistance and thermal stability of functionalized thin film coatings 427
- 19 Challenges and future outlooks 441
- Index 469
Kapitel in diesem Buch
- Frontmatter I
- Preface V
- Contents VII
- List of contributing authors IX
- 1 An overview of corrosion and functionalized thin film coating 1
- 2 Functionalized thin film coatings: fabrication strategies, synthesis, and characterization 21
- 3 Functionalized thin film coatings: basics, properties, and applications 39
- 4 Functionalized superhydrophobic surface and thin film coatings for corrosion protection 53
- 5 Porous materials-based functionalized thin film coatings as corrosion inhibitors 85
- 6 Functionalized conductive polymer-based thin film coating as corrosion inhibitors 115
- 7 Functionalized nanomaterials/nanocomposites-based thin film coatings as corrosion inhibitors 159
- 8 Functionalized carbon allotropes-based thin film coatings as corrosion inhibitors 173
- 9 Metal-organic frameworks (MOFs)-based functionalized thin film coating for corrosion protection 199
- 10 Functionalized quantum dots/carbonaceous quantum dots-based thin film coating as corrosion inhibitor 227
- 11 Functionalized hybrid sol–gel thin film coatings for corrosion inhibition 263
- 12 Incorporating microcapsules-embedded corrosion inhibitor in functionalized thin film coatings 293
- 13 Surface functionalized bio ceramic coatings for anti-corrosion performance 331
- 14 Functionalized thin film coatings for reinforced concrete engineering 347
- 15 Modeling of SH waves in a functionally graded piezo-poroelastic structure with sensitive coating in presence of point source of disturbance 369
- 16 Functionalized thin film coatings for automotive coatings 385
- 17 Influence of inorganic/organic additives on mechanical and electrochemical properties of functionalized thin film coatings 403
- 18 Role of surface functionalization on corrosion resistance and thermal stability of functionalized thin film coatings 427
- 19 Challenges and future outlooks 441
- Index 469
