BS ISO 10406-2:2025 Fibre-reinforced polymer (FRP) reinforcement of concrete — Test methods FRP sheets

Introducing the BS ISO 10406-2:2025, a comprehensive standard that sets the benchmark for testing methods of fibre-reinforced polymer (FRP) sheets used in the reinforcement of concrete. Released on November 17, 2025, this standard is an essential resource for professionals in the construction and civil engineering industries who are looking to ensure the highest quality and performance of FRP materials in their projects.

Overview of BS ISO 10406-2:2025

The BS ISO 10406-2:2025 standard provides detailed methodologies for testing FRP sheets, which are increasingly used in modern construction due to their superior strength-to-weight ratio, corrosion resistance, and versatility. This standard is crucial for ensuring that FRP sheets meet the necessary performance criteria and are suitable for use in reinforcing concrete structures.

Key Features

• Standard Number: BS ISO 10406-2:2025
• Release Date: November 17, 2025
• ISBN: 978 0 539 25293 4
• Status: Standard

Why Choose Fibre-Reinforced Polymer (FRP) Sheets?

Fibre-reinforced polymer sheets are revolutionizing the construction industry. Their use in concrete reinforcement offers numerous advantages:

• Lightweight: FRP sheets are significantly lighter than traditional steel reinforcement, reducing the overall weight of structures and easing transportation and handling.
• Corrosion Resistance: Unlike steel, FRP does not corrode, making it ideal for use in harsh environments and extending the lifespan of structures.
• High Strength: Despite their lightweight nature, FRP sheets provide exceptional tensile strength, enhancing the structural integrity of concrete.
• Versatility: FRP sheets can be tailored to specific project requirements, offering flexibility in design and application.

Applications of FRP Sheets in Construction

FRP sheets are used in a variety of applications within the construction industry, including:

• Bridge Construction: Enhancing the durability and load-bearing capacity of bridges.
• Building Reinforcement: Strengthening existing structures to meet modern safety standards.
• Seismic Retrofitting: Improving the earthquake resistance of buildings and infrastructure.
• Marine Structures: Protecting structures exposed to saltwater and other corrosive environments.

Testing Methods Outlined in BS ISO 10406-2:2025

The standard outlines rigorous testing methods to ensure the quality and performance of FRP sheets. These methods include:

• Tensile Testing: Assessing the tensile strength and elongation properties of FRP sheets.
• Shear Testing: Evaluating the shear strength and deformation characteristics.
• Bond Strength Testing: Measuring the adhesion between FRP sheets and concrete substrates.
• Environmental Testing: Simulating exposure to various environmental conditions to assess durability.

Benefits of Adhering to BS ISO 10406-2:2025

By adhering to the BS ISO 10406-2:2025 standard, construction professionals can ensure:

• Quality Assurance: Confidence that FRP sheets meet international quality standards.
• Safety Compliance: Assurance that reinforced structures are safe and reliable.
• Cost Efficiency: Reduction in maintenance costs due to the durability and longevity of FRP-reinforced structures.
• Environmental Responsibility: Contribution to sustainable construction practices by using materials that reduce the carbon footprint.

Conclusion

The BS ISO 10406-2:2025 standard is an indispensable tool for anyone involved in the design, testing, and application of fibre-reinforced polymer sheets in concrete reinforcement. By following the guidelines and testing methods outlined in this standard, professionals can ensure that their projects not only meet but exceed industry expectations for quality, safety, and performance.

Invest in the future of construction with the BS ISO 10406-2:2025 standard and embrace the benefits of fibre-reinforced polymer technology in your next project.

BS ISO 10406-2:2025

This standard BS ISO 10406-2:2025 Fibre-reinforced polymer (FRP) reinforcement of concrete — Test methods is classified in these ICS categories:

• 91.100.30 Concrete and concrete products
• 83.120 Reinforced plastics