BS EN 16613:2019 - Glass in Building: Laminated Glass and Laminated Safety Glass

Welcome to the world of advanced building materials with the BS EN 16613:2019 standard, a comprehensive guide dedicated to the determination of interlayer viscoelastic properties in laminated glass and laminated safety glass. This standard is an essential resource for professionals in the construction and architectural industries, providing critical insights into the performance and safety of laminated glass products.

Overview of BS EN 16613:2019

The BS EN 16613:2019 standard is a pivotal document that outlines the methodologies for assessing the viscoelastic properties of interlayers used in laminated glass. Released on November 5, 2019, this standard is a testament to the ongoing advancements in building materials technology, ensuring that laminated glass products meet the highest safety and performance criteria.

With a total of 26 pages, this standard provides a detailed framework for testing and evaluating the viscoelastic behavior of interlayers, which is crucial for understanding how laminated glass will perform under various conditions. The ISBN for this standard is 978 0 580 97581 3, making it easily identifiable for procurement and reference purposes.

Importance of Laminated Glass in Modern Construction

Laminated glass is a cornerstone of modern architecture, offering a unique combination of aesthetic appeal and functional benefits. It consists of two or more layers of glass bonded together with an interlayer, typically made of polyvinyl butyral (PVB) or ethylene-vinyl acetate (EVA). This construction not only enhances the strength and durability of the glass but also provides critical safety features.

One of the primary advantages of laminated glass is its ability to hold together when shattered, reducing the risk of injury from sharp glass shards. This makes it an ideal choice for applications where safety is paramount, such as in automotive windshields, skylights, and facades of high-rise buildings.

Understanding Interlayer Viscoelastic Properties

The interlayer in laminated glass plays a crucial role in its overall performance, particularly in terms of safety and sound insulation. The viscoelastic properties of the interlayer determine how the glass will respond to stress, temperature changes, and impact. These properties are essential for ensuring that the glass can withstand various environmental conditions and maintain its integrity over time.

The BS EN 16613:2019 standard provides a detailed methodology for assessing these viscoelastic properties, allowing manufacturers and engineers to design laminated glass products that meet specific performance criteria. By understanding the behavior of the interlayer, professionals can make informed decisions about the suitability of laminated glass for different applications.

Key Features of BS EN 16613:2019

• Comprehensive Testing Methods: The standard outlines a range of testing methods to accurately assess the viscoelastic properties of interlayers, ensuring reliable and consistent results.
• Safety and Performance: By adhering to this standard, manufacturers can ensure that their laminated glass products meet the highest safety and performance standards, providing peace of mind to architects, builders, and end-users.
• Industry Relevance: As a recognized standard in the construction industry, BS EN 16613:2019 is an invaluable resource for professionals seeking to enhance their knowledge and expertise in laminated glass technology.

Applications of Laminated Glass

Laminated glass is used in a wide range of applications, each benefiting from its unique properties:

• Automotive Industry: Laminated glass is commonly used in vehicle windshields, providing safety and sound insulation for passengers.
• Architectural Glazing: In buildings, laminated glass is used for windows, doors, and facades, offering enhanced security and energy efficiency.
• Skylights and Overhead Glazing: The safety features of laminated glass make it ideal for overhead applications, where the risk of breakage is a concern.
• Sound Insulation: The viscoelastic interlayer in laminated glass helps reduce noise transmission, making it suitable for use in environments where sound control is important.

Conclusion

The BS EN 16613:2019 standard is an essential tool for anyone involved in the design, manufacture, or specification of laminated glass products. By providing a clear framework for assessing the viscoelastic properties of interlayers, this standard ensures that laminated glass products meet the highest standards of safety and performance.

Whether you are an architect, engineer, or manufacturer, understanding the intricacies of laminated glass technology is crucial for delivering high-quality, reliable products that meet the demands of modern construction. With the guidance of BS EN 16613:2019, you can confidently navigate the complexities of laminated glass and contribute to the creation of safer, more efficient buildings.

BS EN 16613:2019

This standard BS EN 16613:2019 Glass in building. Laminated glass and laminated safety glass. Determination of interlayer viscoelastic properties is classified in these ICS categories:

• 81.040.20 Glass in building

This document specifies a test method for determining the mechanical viscoelastic properties of interlayer materials. The interlayers under examination are those used in the production of laminated glass and/or laminated safety glass. The interlayer viscoelastic properties are needed in order to determine the load resistance of laminated glass. From the tensile modulus in particular conditions of temperature and load duration, an interlayer can be placed into a family that relates to a specific interlayer shear transfer coefficient. This value can be used in the simplified calculation method described in EN 16612. Informative Annex D explains the background to the determination of families relating to a specific interlayer shear transfer coefficient.