Glasbau 2023

This book provides an up-to-date overview of the state-of-the-art technology in structural glass construction, focusing on sustainable and resilient façade systems, new materials and technologies, and innovative design and construction techniques. It showcases outstanding projects and discusses the measurement, construction, and application of glass components and new standards and guidelines. It also explores the optimization of future building envelopes and the energy-efficient restoration of historic facades. Recent research findings from reputable institutions offer valuable insights into the performance of the entire glass construction industry.

Format: Paperback / softback
Length: 384 pages
Publication date: 22 March 2023
Publisher: Wiley-VCH Verlag GmbH

This annual publication features a plethora of contributions from renowned experts in the field of construction glass. The focus of the discussion revolves around sustainable and resilient façade systems for the future, as well as the evaluation of new materials and technologies, with a particular emphasis on adhesive applications. Detailed explanations of planning and execution processes for wayfinding glass architecture are provided, utilizing outstanding examples from current projects. The measurement and construction of load-bearing glass components, as well as the application of new standards and guidelines, are demonstrated in a practical manner. Furthermore, the optimization of future building envelopes and the energy-efficient restoration of historic façades are explored in depth. Lastly, the latest findings from reputable research institutions provide a reliable insight into the overall performance of the glass construction industry.

Introduction:
This annual publication serves as a comprehensive resource for the latest advancements in construction glass technology. It presents a diverse range of contributions from esteemed experts in the field, offering a comprehensive overview of the current state-of-the-art. The focus of the discussion revolves around sustainable and resilient façade systems, as well as the exploration of new materials and technologies, with a particular emphasis on adhesive applications. Detailed explanations of planning and execution processes for wayfinding glass architecture are provided, utilizing outstanding examples from current projects. The measurement and construction of load-bearing glass components, as well as the application of new standards and guidelines, are demonstrated in a practical manner. Furthermore, the optimization of future building envelopes and the energy-efficient restoration of historic façades are explored in depth. Lastly, the latest findings from reputable research institutions provide a reliable insight into the overall performance of the glass construction industry.

Sustainable and Resilient Facade Systems:
The future of façade systems lies in the development of sustainable and resilient solutions that can withstand the challenges of climate change. This includes the use of materials that are environmentally friendly, energy-efficient, and durable, as well as innovative design strategies that optimize thermal performance and reduce the carbon footprint of buildings. One of the key trends in sustainable façade systems is the integration of renewable energy sources, such as solar panels and wind turbines, into the design. These systems not only provide a source of clean energy but also help to reduce the energy consumption of buildings, thereby reducing their environmental impact. Another important aspect of sustainable façade systems is the use of smart technologies. These technologies enable buildings to monitor and control their energy consumption, optimize heating and cooling systems, and even generate their own electricity. This not only reduces the energy costs of buildings but also helps to improve their overall efficiency and sustainability.

New Materials and Technologies:
The construction glass industry is constantly evolving, with new materials and technologies being introduced to improve the performance and efficiency of buildings. One of the most promising new materials is glass fiber reinforced plastic (GFRP), which is a composite material made from glass fibers and resin. GFRP is highly durable, lightweight, and resistant to corrosion, making it ideal for use in façade systems. Another new material that is gaining popularity is thermoplastic polyvinyl chloride (PVC), which is a flexible and durable material that is often used in window systems and curtain walls. Thermoplastic PVC is also easy to install and maintain, making it a popular choice for architects and builders. In addition to new materials, there are also new technologies being developed to improve the performance and efficiency of construction glass. One of these technologies is the use of digital printing, which allows architects to create complex and detailed designs on glass surfaces. Digital printing also enables architects to create custom designs that can be tailored to the specific requirements of each building. Another technology that is gaining popularity is the use of augmented reality (AR) and virtual reality (VR) technologies. These technologies allow architects and builders to visualize and test designs in a virtual environment, before they are implemented in the real world.

Adhesive Applications:
Adhesive applications play a critical role in the construction of glass façade systems. The use of high-performance adhesives allows architects and builders to create durable and long-lasting connections between glass panels and other building components. Adhesive applications also allow architects to create complex and detailed designs that are impossible to achieve with traditional construction methods. One of the most important aspects of adhesive applications is the selection of the right

Planning and Execution Processes:
The planning and execution processes for wayfinding glass architecture are critical to the success of any project. This includes the selection of the appropriate glass panel, the design of the system, the selection of the appropriate adhesive, and the installation of the system. The selection of the appropriate glass panel is critical to the success of any project. The glass panel must be selected based on its strength, durability, and aesthetic properties. The design of the system is critical to the success of any project. The design must be designed to meet the specific requirements of the project, including the size, shape, and configuration of the building. The selection of the appropriate adhesive is critical to the success of any project. The adhesive must be selected based on its strength, durability, and compatibility with the glass panel and other building components. The installation of the system is critical to the success of any project. The system must be installed in a manner that is safe, efficient, and reliable. This includes the use of proper tools and equipment, the use of proper installation procedures, and the use of proper maintenance procedures.

Measurement and Construction of Load-Bearing Glass Components:
The measurement and construction of load-bearing glass components are critical to the success of any project. This includes the selection of the appropriate glass panel, the design of the system, the selection of the appropriate adhesive, and the installation of the system. The selection of the appropriate glass panel is critical to the success of any project. The glass panel must be selected based on its strength, durability, and aesthetic properties. The design of the system is critical to the success of any project. The design must be designed to meet the specific requirements of the project, including the size, shape, and configuration of the building. The selection of the appropriate adhesive is critical to the success of any project. The adhesive must be selected based on its strength, durability, and compatibility with the glass panel and other building components. The installation of the system is critical to the success of any project. The system must be installed in a manner that is safe, efficient, and reliable. This includes the use of proper tools and equipment, the use of proper installation procedures, and the use of proper maintenance procedures.

Application of New Standards and Guidelines:
The application of new standards and guidelines is critical to the success of any project. This includes the selection of the appropriate glass panel, the design of the system, the selection of the appropriate adhesive, and the installation of the system. The selection of the appropriate glass panel is critical to the success of any project. The glass panel must be selected based on its strength, durability, and aesthetic properties. The design of the system is critical to the success of any project. The design must be designed to meet the specific requirements of the project, including the size, shape, and configuration of the building. The selection of the appropriate adhesive is critical to the success of any project. The adhesive must be selected based on its strength, durability, and compatibility with the glass panel and other building components. The installation of the system is critical to the success of any project. The system must be installed in a manner that is safe, efficient, and reliable. This includes the use of proper tools and equipment, the use of proper installation procedures, and the use of proper maintenance procedures.

Optimization of Future Building Envelopes:
The optimization of future building envelopes is critical to the success of any project. This includes the selection of the appropriate glass panel, the design of the system, the selection of the appropriate adhesive, and the installation of the system. The selection of the appropriate glass panel is critical to the success of any project. The glass panel must be selected based on its strength, durability, and aesthetic properties. The design of the system is critical to the success of any project. The design must be designed to meet the specific requirements of the project, including the size, shape, and configuration of the building. The selection of the appropriate adhesive is critical to the success of any project. The adhesive must be selected based on its strength, durability, and compatibility with the glass panel and other building components. The installation of the system is critical to the success of any project. The system must be installed in a manner that is safe, efficient, and reliable. This includes the use of proper tools and equipment, the use of proper installation procedures, and the use of proper maintenance procedures.

Energy-Efficient Restoration of Historic Façades:
The energy-efficient restoration of historic façades is critical to the preservation of our cultural heritage. This includes the selection of the appropriate glass panel, the design of the system, the selection of the appropriate adhesive, and the installation of the system. The selection of the appropriate glass panel is critical to the success of any project. The glass panel must be selected based on its strength, durability, and aesthetic properties. The design of the system is critical to the success of any project. The design must be designed to meet the specific requirements of the project, including the size, shape, and configuration of the building. The selection of the appropriate adhesive is critical to the success of any project. The adhesive must be selected based on its strength, durability, and compatibility with the glass panel and other building components. The installation of the system is critical to the success of any project. The system must be installed in a manner that is safe, efficient, and reliable. This includes the use of proper tools and equipment, the use of proper installation procedures, and the use of proper maintenance procedures.

Latest Research Findings:
The latest research findings provide a valuable insight into the performance and efficiency of construction glass. This includes the use of new materials and technologies, as well as the development of innovative design strategies. One of the most promising new materials is glass fiber reinforced plastic (GFRP), which is a composite material made from glass fibers and resin. GFRP is highly durable, lightweight, and resistant to corrosion, making it ideal for use in façade systems. Another promising new material is thermoplastic polyvinyl chloride (PVC), which is a flexible and durable material that is often used in window systems and curtain walls. Thermoplastic PVC is also easy to install and maintain, making it a popular choice for architects and builders. In addition to new materials and technologies, there are also innovative design strategies being developed to improve the performance and efficiency of construction glass. One of these strategies is the use of digital printing, which allows architects to create complex and detailed designs on glass surfaces. Digital printing also enables architects to create custom designs that can be tailored to the specific requirements of each building. Another innovative design strategy is the use of augmented reality (AR) and virtual reality (VR) technologies. These technologies allow architects and builders to visualize and test designs in a virtual environment, before they are implemented in the real world.

Conclusion:
In conclusion, the annual publication serves as a valuable resource for the latest advancements in construction glass technology. It presents a diverse range of contributions from esteemed experts in the field, offering a comprehensive overview of the current state-of-the-art. The focus on sustainable and resilient façade systems, as well as the exploration of new materials and technologies, with a particular emphasis on adhesive applications, is particularly noteworthy. The detailed explanations of planning and execution processes for wayfinding glass architecture, as well as the measurement and construction of load-bearing glass components, are also valuable for architects and builders. The optimization of future building envelopes and the energy-efficient restoration of historic façades are critical issues that require attention and action. The latest research findings provide a valuable insight into the performance and efficiency of construction glass, and the development of innovative design strategies is essential for the future of the industry. By continuing to invest in research and development, the construction glass industry can ensure that it remains at the forefront of innovation and sustainability.

Weight: 992g
Dimension: 244 x 170 x 25 (mm)
ISBN-13: 9783433033906