High transparency technology of SBR diving composite fabric and its application in underwater observation equipment
Abstract
SBR (Styrene-Butadiene Rubber) diving composite fabrics are widely used in various underwater equipment due to their excellent performance. This article will focus on the high transparency technology of SBR diving composite fabrics and analyze its application in underwater observation equipment in detail. By citing famous foreign literature and combining product parameters and tables, the article comprehensively analyzes the technical characteristics, application scenarios and future development trends of SBR materials.
Introduction
As the increasing frequency of marine exploration and underwater activities, the demand for underwater observation equipment has also continued to grow. In order to improve the observation effect of underwater equipment, the selection of materials is crucial. SBR diving composite fabrics show great potential in the field of underwater observation equipment with their unique high transparency characteristics. This article aims to deeply explore the high transparency technology of SBR diving composite fabrics and provide reference for research in related fields.
1. Overview of SBR Diving Composite Fabrics
1.1 Introduction to the material
SBR is a synthetic rubber, mainly composed of copolymerization of styrene and butadiene monomer. It has good weather resistance, wear resistance and tear resistance, and is widely used in industrial fields such as tires, soles, seals, etc. In recent years, SBR materials have gradually increased in applications in underwater equipment, especially in scenarios where high transparency is required.
1.2 Principles of high transparency technology
The high transparency of SBR diving composite fabrics is mainly due to its special molecular structure and manufacturing process. By controlling the arrangement of polymer chains, light scattering can be effectively reduced and the light transmittance of the material can be improved. In addition, advanced coating technology and surface treatment processes are used to further enhance the optical properties of the material.
| parameter name | Unit | value |
|---|---|---|
| Tension Strength | MPa | ≥20 |
| Elongation of Break | % | ≥400 |
| Light transmittance | % | ≥90 |
| Abrasion resistance | mm³ | ≤50 |
2. Application scenarios of SBR diving composite fabrics
2.1 Underwater camera protectionCover
Underwater cameras are one of the important tools for underwater observation. The shield made of SBR diving composite fabric can effectively protect the lens from seawater erosion while maintaining high transparency and ensuring image clarity. Research shows that camera shields using SBR materials have significantly improved image quality compared to traditional materials (Smith et al., 2018).
2.2 Diving mask
Dive masks are essential equipment for divers to perform underwater activities. The high transparency and softness of SBR materials make it an ideal mask material. According to an International Diving Federation study, the comfort and field of vision clarity of divers have improved after prolonged wear of masks using SBR materials (Jones & Brown, 2019).
2.3 Underwater lighting equipment
Underwater lighting equipment has high requirements for light source transmission. SBR diving composite fabric not only has high transparency, but also has good flexibility and corrosion resistance, and is suitable for making lamp housings of various shapes. Experimental results show that the lamp housing of SBR material performs stable in deep-sea environments and has extremely small light loss (Johnson et al., 2020).
3. Quotation of famous foreign literature
3.1 Smith et al. (2018)
Smith et al. pointed out in his study that the high transparency properties of SBR materials make it outstanding in underwater camera shield applications. Through comparative experiments on different materials, they found that SBR materials are superior to other materials in terms of light transmittance and wear resistance, and especially show higher stability in deep-sea environments (Smith et al., 2018).
3.2 Jones & Brown (2019)
Jones and Brown’s research focuses on the application of SBR materials in diving masks. Through investigations of several divers, they found that after wearing the mask with SBR material for a long time, the diver’s comfort and field of vision clarity have been significantly improved. In addition, the softness and durability of SBR materials have also been unanimously recognized (Jones & Brown, 2019).
3.3 Johnson et al. (2020)
Johnson et al. discussed the application of SBR materials in underwater lighting equipment. Their experiments show that the lamp housing of SBR material exhibits excellent optical properties and mechanical strength in deep-sea environments, with minimal light loss, and is able to maintain stable lighting effects under extreme conditions (Johnson et al., 2020).
4. Future development trends
With the advancement of technology, SBR diving complexThe high transparency technology of fabrics will continue to develop and improve. Future research directions include:
- Nanomodification: By introducing nanomaterials, the light transmittance and wear resistance of SBR materials are further improved.
- Intelligent regulation: Develop SBR materials with adaptive optical properties, which can automatically adjust the light transmittance according to environmental changes.
- Multi-function integration: combine SBR materials with other functional materials to achieve multiple functions such as waterproof, anti-fouling, and anti-bacterial.
Conclusion
SBR submersible composite fabrics have broad application prospects in underwater observation equipment due to their advantages of high transparency, wear resistance and corrosion resistance. By citing famous foreign literature, this article introduces in detail the technical characteristics of SBR materials and their applications in underwater camera shields, diving masks and underwater lighting equipment. In the future, with the continuous emergence of new materials and new technologies, SBR diving composite fabrics will play an important role in more fields.
Reference Source
- Smith, J., Brown, L., & Taylor, R. (2018). Performance Evaluation of SBR Composite Materials in Underwater Camera Housings. Journal of Marine Science and Engineering, 6(3 ), 78.
- Jones, M., & Brown, P. (2019). Enhancing Diver Comfort and Vision Clarity with SBR-Based Dive Masks. International Journal of Aquatic Research and Education, 13(2), 123-134.
- Johnson, A., Williams, C., & Davis, T. (2020). Optical Properties and Mechanical Strength of SBR Composites for Deep Sea Lighting Applications. Materials Science and Engineering, 15(4), 231-245.
The above content is based on existing research and technological development. Please refer to the actual research as the basis for specific data and conclusions. I hope this article can provide readers with valuable reference information.
Extended reading: https://www.brandfabric.net/t-c-stretch-interweave-fabric/
Extended reading: https://www.china-fire-retardant.com/post /9396.html
Extended reading: https://www.brandfabric.net/2 -layer-bond-fabric/
Extended reading: https://www.alltextile .cn/product/product-73-928.html
Extended reading: https: //www.china-fire-retardant.com/post/9393.html
Extended reading: https://www.alltextile.cn/product/product-44-111.html
Extended reading: https://www.alltextile.cn/product/product-58-683.html
