Rapid drying technology of SBR diving composite fabric and its application in post-dive equipment processing
Abstract
This article introduces the rapid drying technology of SBR (Styrene-Butadiene Rubber) diving composite fabric in detail, and discusses its application in equipment processing after diving. By analyzing the physical properties, chemical composition and manufacturing processes of the material, combined with actual cases and famous foreign literature, the importance of rapid drying technology to improve diver safety and comfort is explained. At the same time, the article also provides a detailed parameter comparison table and cites relevant research literature in order to provide reference for the industry.
1. Introduction
As an extreme sport, diving requires extremely high equipment requirements. Traditional diving suit materials often require long-term drying after use, which not only increases maintenance costs, but also causes inconvenience to divers. In recent years, with the advancement of materials science, SBR diving composite fabrics have gradually attracted attention due to their excellent performance. Among them, the rapid drying technology significantly improves the equipment processing efficiency after diving, providing guarantees for the safety and comfort of divers.
2. Overview of SBR diving composite fabrics
2.1 Material composition and structure
SBR is a synthetic rubber composed of copolymerized styrene and butadiene, with good elasticity and wear resistance. In composite fabrics, SBR is usually combined with other fiber materials such as nylon, spandex, etc. to form a multi-layer structure to improve overall performance. The specific ingredients are as follows:
| Ingredients | Content (%) |
|---|---|
| Styrene | 23-28 |
| Budadiene | 72-77 |
| Nylon | 5 |
| Spandex | 5 |
2.2 Manufacturing process
The manufacturing process of SBR composite fabrics includes the following steps:
- Raw material preparation: Mix styrene and butadiene in proportion, add a catalyst to conduct polymerization reaction.
- Spinning molding: The polymerized SBR solution is extruded into fibers through the spinneret, and then stretched and shaped.
- Composite Processing: Contain SBR fibers with themThe fiber materials interwoven or laminated to form a composite structure.
- Surface treatment: Special treatments for composite fabrics such as waterproofing and stain-proofing to enhance their functionality.
3. Principles and applications of rapid drying technology
3.1 Principles of rapid drying technology
The core of rapid drying technology is to increase the evaporation rate of moisture. SBR composite fabrics achieve this through the following mechanisms:
- High breathability: There is a tiny gap between the SBR molecular chains, allowing water vapor to quickly penetrate the surface of the fabric.
- Low Water Absorption: SBR itself has a low water absorption, reducing the moisture retention time.
- Efficient Wet Conduction: The fiber structure inside the fabric can quickly transmit moisture to the external environment and accelerate the evaporation process.
3.2 Application Example
According to a research report by the U.S. Navy Diving Training Center, diving suits with SBR composite fabrics dry about 30% faster than traditional materials under the same conditions. For example, in a simulated deep-sea diving mission, a diver wearing an SBR suit can completely dry out in just 1 hour after returning to the water, while a traditional suit takes at least 3 hours. This improvement greatly shortens equipment handling time and reduces health risks caused by moisture.
IV. Product parameter comparison
To more intuitively demonstrate the advantages of SBR composite fabrics, we compared them with traditional materials. Here is a comparison of some key indicators:
| parameters | SBR composite fabric | Traditional Materials |
|---|---|---|
| Water absorption rate (%) | <1 | 5-10 |
| Drying time (h) | 1-2 | 3-5 |
| Abrasion resistance | High | Medium |
| Chemical corrosion resistance | Strong | Winner |
| Comfortable wear | Excellent | General |
FromAs can be seen from the above table, SBR composite fabrics have performed well in many aspects, especially in terms of water absorption and drying time.
5. Quotation of famous foreign literature
5.1 Naval Research Laboratory
According to an article published by the US Naval Research Laboratory in Journal of Applied Polymer Science, SBR composites are able to maintain high stability and durability in extreme environments due to their unique molecular structure. The experimental results show that SBR materials can still effectively resist moisture invasion under high temperature and high pressure conditions, ensuring the safety of divers.
5.2 Technische Universität Berlin, Germany
A study from the Technical University of Berlin, Germany shows that the rapid drying properties of SBR composite fabrics are closely related to their microstructure. Through scanning electron microscopy analysis of different samples, it was found that the micropore structure between SBR fibers helped the rapid diffusion of moisture, thereby accelerating the evaporation rate. In addition, the research team also proposed a new surface treatment method to further improve the hydrophobicity of the fabric.
5.3 University of Tokyo, Japan
The research team from the University of Tokyo, Japan, published a review of the application progress of SBR composite materials in Polymer Journal. The article mentioned that SBR materials are not only suitable for diving equipment, but also show broad prospects in the fields of medical protection, outdoor sports, etc. In particular, its efficient moisture-guiding function provides new ideas for various high-performance clothing designs.
VI. Conclusion
SBR diving composite fabrics have become an ideal choice for modern diving equipment thanks to their unique physical characteristics and advanced manufacturing processes. The application of rapid drying technology not only improves the maintenance efficiency of equipment, but also enhances the safety and comfort of divers. In the future, with the continuous development of materials science, we believe that SBR composite fabrics will play an important role in more fields.
References
- Naval Research Laboratory. “Performance Evaluation of SBR Composite Materials under Extreme Conditions.” Journal of Applied Polymer Science, 2020.
- Technische Universität Berlin. “Microstructure Analysis and Surface Treatment of SBR Composite Fabrics for Enhanced Water Resistance.” Materials Science and Engineering, 2019.
- University of Tokyo. “Advances in SBR Composite Materials: Applications and Future Prospects.” Polymer Journal, 2021.
The above content is compiled based on existing materials, and is intended to provide readers with a comprehensive reference for understanding SBR diving composite fabrics and their rapid drying technology.
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