The IICRC WRT body of knowledge identifieshygroscopic materialsas the most susceptible to secondary damage caused by elevated humidity. Hygroscopic materials readily absorb and release moisture from the surrounding air until they reach equilibrium with ambient relative humidity. Common examples include wood, paper, drywall, textiles, and many composite building materials.

The WRT manual explains that when relative humidity rises—particularly above safe thresholds—hygroscopic materials absorb moisture even without direct water contact. This can lead to swelling, warping, loss of structural integrity, finish failure, corrosion of fasteners, and increased microbial risk. This process is known assecondary damage, because it occurs after the initial water intrusion and is driven by uncontrolled environmental conditions.

Unabsorbent, hydrophobic, and non-porous materials resist moisture absorption and are far less affected by high humidity alone. While condensation may occur on these surfaces, they do not readily absorb moisture into their structure.

Because of this behavior, the WRT curriculum emphasizes aggressive humidity control during drying—not only to dry wet materials but also to protect unaffected hygroscopic materials within the drying chamber. Monitoring relative humidity and vapor pressure is therefore essential to prevent secondary damage.