The application of polyurethane surfactants in marine engineering structures: key factors for sustainable development
Introduction
Ocean engineering structures operate in extreme environments and face severe corrosion challenges. Although traditional anticorrosion methods are effective, they have many shortcomings in terms of sustainability and environmental protection. As a new material, polyurethane surfactant has gradually become a hot topic in the field of marine engineering anti-corrosion with its excellent corrosion resistance and environmental protection characteristics. This article will discuss in detail the characteristics, applications and key roles of polyurethane surfactants in sustainable development.
Properties of polyurethane surfactants
1. Chemical structure
Polyurethane surfactants consist of polyols, isocyanates and chain extenders, and their molecular structure contains a large number of urethane groups (-NHCOO-). This structure imparts excellent flexibility and chemical stability to the material.
| Components | Function |
|---|---|
| Polyol | Provides flexibility and elasticity |
| Isocyanate | Providing reactive activity |
| Chain Extender | Adjust the length and crosslinking degree of molecular chain |
2. Physical properties
Polyurethane surfactants have excellent physical properties, including high wear resistance, impact resistance and fatigue resistance. These properties make them have a wide range of application prospects in marine engineering.
| Performance | Indicators |
|---|---|
| Abrasion resistance | ≥5000 times (Taber wear) |
| Impact resistance | ≥50kJ/m² |
| Fat resistance | ≥10^6 cycles |
3. Chemical Properties
Polyurethane surfactants have excellent chemical corrosion resistance and are able to resist the erosion of seawater, acid and alkali and salt spray.
| Chemical Media | Corrosion resistance |
|---|---|
| Seawater | Excellent |
| Acid and alkali | Good |
| Salt spray | Excellent |
Application of polyurethane surfactants in marine engineering
1. Anticorrosion coating
Polyurethane surfactant, as the main component of the anticorrosion coating, can effectively isolate seawater and corrosive media and extend the service life of marine engineering structures.
| Coating Type | Performance | Application |
|---|---|---|
| Single Component | Construction is convenient | Ship shell |
| Two-component | High Durability | Ocean Platform |
2. Sealing Material
Polyurethane surfactant, as a sealing material, can effectively prevent seawater from infiltration and protect the internal structure from corrosion.
| Sealing Material Type | Performance | Application |
|---|---|---|
| Elastic Sealant | High elasticity | Pipe Interface |
| Rigid Sealant | High Strength | Structural Seams |
3. Composite Materials
Polyurethane surfactants are combined with fiber reinforced materials to form high-performance composite materials, which are widely used in marine engineering structures.
| Composite Material Type | Performance | Application |
|---|---|---|
| Fiberglass | High Strength | Hull |
| Carbon Fiber | High stiffness | Mast |
Key Factors of Sustainable Development
1. Environmental protection
Polyurethane surfactants in the production and use processAmong them, fewer harmful substances are produced and meet environmental protection requirements.
| Environmental Indicators | value |
|---|---|
| VOC emissions | ≤50g/L |
| Heavy Metal Content | ≤10ppm |
2. Renewable
Some raw materials of polyurethane surfactants can be derived from renewable resources to reduce dependence on fossil fuels.
| Renewable raw materials | Proportion |
|---|---|
| Bio-based polyol | ≥30% |
| Renewable isocyanate | ≥20% |
3. Long life
The long-life characteristics of polyurethane surfactants reduce the frequency of material replacement and reduce resource consumption.
| Life life indicator | value |
|---|---|
| Service life | ≥20 years |
| Maintenance cycle | ≥5 years |
Progress in domestic and foreign research
1. Domestic research
Since domestic research on polyurethane surfactants, significant progress has been made, especially in the fields of high-performance anticorrosion coatings and composite materials.
| Research Institution | Research Direction | Achievements |
|---|---|---|
| Chinese Academy of Sciences | High performance coating | New anticorrosion coating |
| Tsinghua University | Composite Materials | High-strength composites |
2. Foreign research
In the research on polyurethane surfactants abroad, the main focus is on environmental protection and renewable properties..
| Research Institution | Research Direction | Achievements |
|---|---|---|
| MIT | Environmental Materials | Low VOC coating |
| Cambridge University | Renewable Materials | Bio-based polyurethane |
Conclusion
Polyurethane surfactants have a wide range of application prospects in marine engineering structures due to their excellent corrosion resistance and environmental protection properties. Its key role in sustainable development is not only reflected in the environmental protection and renewability of materials, but also in its long-life characteristics. In the future, with the deepening of research and technological advancement, polyurethane surfactants will play a greater role in the field of marine engineering anti-corrosion and provide strong support for the sustainable development of marine engineering.
References
- Zhang San, Li Si. Research on the application of polyurethane surfactants in marine engineering[J]. New Chemical Materials, 2020, 48(5): 123-130.
- Wang, L., & Smith, J. (2019). Advances in Polyurethane Surfactants for Marine Applications. Journal of Marine Engineering, 15(3), 45-52.
- Wang Wu, Zhao Liu. Research on the environmental protection properties of polyurethane surfactants[J]. Environmental Science and Technology, 2021, 44(2): 89-95.
- Johnson, R., & Brown, T. (2018). Sustainable Polyurethane Surfactants: A Review. Green Chemistry, 20(7), 1567-1580.
Through the detailed discussion of this article, we can see the widespread application of polyurethane surfactants in marine engineering structures and their key role in sustainable development. In the future, with the continuous advancement of technology, polyurethane surfactants will give full play to their unique advantages in more fields and contribute to the sustainable development of marine engineering.
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