Protecting Your Building from Moisture Damage: A Comprehensive Guide to Rainscreen Systems

Moisture damage is one of the most significant threats to the structural integrity and longevity of a building. It can lead to a host of problems, including mold growth, rotting, and deterioration of the building’s structural components.

Photo de R ARCHITECTURE sur Unsplash

To prevent moisture damage, builders and property owners need to implement a comprehensive moisture management system, which includes a rainscreen system.

What is a Rainscreen System?

Diego Delso, CC BY-SA 4.0, via Wikimedia Commons

A rainscreen system is an exterior cladding system that provides a ventilated air gap between the building’s exterior surface and the cladding. It is designed to protect the building from moisture damage caused by rain, snow, and wind-driven water. The system comprises multiple layers, including the cladding, air gap, weather-resistant barrier, insulation, and framing.

The air gap in a rainscreen system is crucial to its effectiveness. It creates a pressure differential that helps to prevent water from penetrating the building’s exterior surface. The gap also allows air to circulate behind the cladding, which helps to dissipate any moisture that may accumulate.

Types of Rainscreen Systems

There are two main types of rainscreen systems: drained and vented. Drained systems are designed to collect water that penetrates the cladding and direct it away from the building’s exterior surface. Vented systems allow air to circulate behind the cladding to help dissipate moisture.

Drained Rainscreen Systems

Drained rainscreen systems are the most common type of rainscreen system. They are designed to collect water that penetrates the cladding and direct it away from the building’s exterior surface. The system comprises multiple layers, including the cladding, air gap, weather-resistant barrier, insulation, and framing.

The key element of a drained rainscreen system is the drainage plane. This layer is designed to collect water that penetrates the cladding and direct it away from the building’s exterior surface. The drainage plane can be made of various materials, including plastic mesh, drainage mat, and dimpled plastic.

JiriMatejicek, CC BY-SA 3.0, via Wikimedia Commons


Vented Rainscreen Systems

Vented rainscreen systems are designed to allow air to circulate behind the cladding to help dissipate moisture. The system comprises multiple layers, including the cladding, air gap, weather-resistant barrier, insulation, and framing.

The key element of a vented rainscreen system is the ventilation layer. This layer is designed to allow air to circulate behind the cladding to help dissipate moisture. The ventilation layer can be made of various materials, including metal mesh, corrugated plastic, and perforated metal.

Benefits of Rainscreen Systems

Rainscreen systems offer numerous benefits, including:

Moisture Protection: Rainscreen systems protect the building from moisture damage caused by rain, snow, and wind-driven water.

Energy Efficiency: Rainscreen systems improve the building’s energy efficiency by reducing thermal bridging and preventing air infiltration.

Durability: Rainscreen systems increase the building’s durability by protecting it from moisture damage and minimizing thermal stress.

Aesthetic Appeal: Rainscreen systems offer a wide range of design options, allowing builders and property owners to customize the building’s exterior appearance.

Photo de Avi Werde sur Unsplash

Installation of Rainscreen Systems

The installation of rainscreen systems requires careful planning and execution to ensure their effectiveness. Builders and property owners should consult with experienced professionals to determine the best rainscreen system for their specific needs and requirements.

The installation process typically involves the following steps:

Preparing the Surface: The building’s exterior surface must be clean, dry, and free of any debris before installing the rainscreen system.

Installing the Cladding: The cladding is installed on top of the weather-resistant barrier, creating the air gap behind it.

ION

More Reading

Post navigation

Leave a Comment

Leave a Reply

Your email address will not be published. Required fields are marked *