![]() ![]() An air barrier must stand up to the air pressure differences by minimizing heat losses and gains through conduction, convection, and radiation. Sto’s Air Control LayerĪ high-performance building envelope prevents air transfer (and the moisture contained in it) between the exterior and interior to regulate the indoor climate. Our complete wall systems include all the layers required for a high-performance building envelope system: air, thermal, water-shedding, vapor, water, and durable control layers. Sto Corp wall systems provide architects, builders, and developers with cutting-edge building envelope technology to create energy-efficient, durable, safe, and sustainable walls with beautiful and unique aesthetics. Achieving Better Building Envelope Walls with Sto Corp High-performing, durable walls of a tight building envelope must include air, vapor, thermal, and water-shedding layers. Today’s building team must consider all components of the building envelope to ensure its performance however, the exterior walls are its most significant component. The whole-building system approach requires that the entire construction project team (developers, architects, builders, and designers) work together during the design and building phases towards the overall project goals for a tight building envelope, to ensure energy-efficient, durable, and cost-efficient structures with excellent environmental indoor quality (EIQ). The modern approach to achieving a better building envelope system requires builders, architects, and developers to apply the whole-building system. Modern Improvements to Building Envelope Construction The 2021 commercial IECC Section C402.5 mandates the thermal envelope of buildings shall comply with Sections C402.5.1 to C402.5.8. ![]() The 2021 residential International Energy Conservation Code (IECC) Section R402.4 mandates that the building of the thermal building envelope shall limit air leakage according to Sections R402.4.1 through R402.4.5.The 2021 IECC mandates residential and commercial buildings’ thermal building envelope requirements: Moreover, the building envelope design should ensure durability, structural strength, pleasing aesthetics, long- and short-term economic feasibility, and code compliance. Controls airborne pollutants, solar radiation, and the spread of smoke and fire.Manages moisture and air infiltration in a building’s wall system to lower the risk of corrosion and decay, and significantly reduce costly maintenance and repairs.Contributes to excellent indoor environmental quality (IEQ) by creating comfortable and mold-free buildings and homes with controlled acoustics.Prevents air infiltration through the wall, lessening energy use and costs Stops moisture infiltration by preventing condensation in the wall system to resist structurally damaging mildew and mold.Successful application of a high-quality building envelope provides many benefits to a building or home. A high-performing building envelope design should prevent air leaks and moisture intrusion through an exterior wall by applying continuous air and moisture barriers to manage water infiltration and accumulation. Building envelope systems form the primary thermal barrier between the interior and exterior environments and include all the components of a building’s outer shell, the walls, glazings, roof, and foundation. ![]()
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