As climate change drives increasingly severe storms, building resilience is critical. How do we ensure buildings withstand these extremes? A robust whole-building air barrier assembly is key, offering a resilient shield against environmental stresses. This presentation will guide you in designing and implementing a high-performance building envelope to manage climate impacts effectively.

The American Institute of Architects (AIA) defines resilience as mitigating risks from hazards, shocks, and stresses while adapting to evolving conditions. But how does this apply to building envelope design? We’ll explore how resilience is integrated through strategies based on current and future codes, comparing past standards to anticipated advancements. This focus on code evolution and specification improvements highlights best practices for adaptable, durable construction.

The presentation examines various roof and wall assemblies, analyzing performance through lab tests and real-world exposure. Additionally, this panel will address essential quality assurance protocols, including building enclosure commissioning, the Air Barrier Association of America (ABAA) Quality Assurance Program, and Whole Building Airtightness Testing, to guarantee on-site performance aligns with design. By the end, attendees will understand the critical role of whole-building air and water barriers and how to future-proof projects through resilience-driven design, quality control, and adaptability.

Learning Objectives:
1. Recognize the difference between the minimum requirements and needed performance criteria for
resilient buildings.
2. Define specification requirements for future-proof whole building air barrier materials and installation.
3. Design a resilient roof assembly to meet the intensifying weather conditions.
4. Understand wall air barrier properties that are not referenced in the code but will improve the overall durability of
the building.