When it comes to safeguarding buildings and their occupants from extreme weather events like hurricanes and tornadoes, windstorm-rated hardware plays a crucial role. These specialized components are designed to protect against high-velocity winds and dangerous debris while maintaining structural integrity and functionality. Let’s explore the key distinctions and requirements for hurricane-rated and tornado-rated hardware.
Hurricane-Rated Hardware: Built for Sustained Storms
Hurricanes are among the most devastating natural disasters, with an average of 12 forming in the Atlantic basin each year. While storm surges are often the deadliest aspect, windborne debris accounts for much of the structural damage.
Hurricane-rated hardware is specifically designed to:
- Prevent Debris Penetration: Protect buildings from windborne projectiles while maintaining the integrity of doors and their components.
- Withstand High Velocity Hurricane Zones (HVHZ): Tested to endure sustained wind pressure and extreme conditions over long periods.
Guidelines and Testing
Hurricane-rated hardware must comply with the Florida Building Code (FBC), which sets stringent standards. Many coastal states adopt the FBC for their hurricane door requirements. Hardware is subjected to rigorous third-party testing, including:
- Static Pressure Testing: Ensures hardware can withstand sustained wind pressure.
- Debris Impact Testing: Verifies resistance to high-velocity projectiles.
- Cyclical Pressure Testing: Simulates the stress of repeated wind gusts.
To meet FBC standards, all components—doors, frames, hinges, and exit devices—must bear visible windstorm rating labels. Importantly, the FBC recognizes component listings, allowing substitutions of products with equivalent ratings.
Tornado-Rated Hardware: Protecting Lives in an Instant
Tornadoes, while shorter in duration, are among the most violent natural events, with wind speeds reaching up to 250 miles per hour. In the U.S. alone, an average of 1,000 tornadoes are reported annually, making tornado-rated hardware vital in vulnerable regions.
The primary purpose of tornado-rated hardware is to:
- Protect Occupants: Prevent extreme pressure differentials and block projectile debris.
- Withstand Extreme Winds: Maintain integrity under short bursts of intense force.
Guidelines and Testing
Tornado-rated hardware adheres to FEMA 361 and ICC 500 standards, which outline stringent safety measures for tornado shelters. These products undergo comprehensive testing by third-party laboratories, including:
- Static Pressure Testing: Ensures durability against extreme pressure differentials.
- Impact Testing: Confirms resilience to debris impacts at speeds up to 100 miles per hour.
Unlike hurricane-rated systems, tornado-rated hardware is tested and certified as an assembly. This means the door, frame, and hardware must be supplied and installed together as a single unit to maintain compliance.
Key Differences Between Hurricane- and Tornado-Rated Hardware
| Feature | Hurricane-Rated Hardware | Tornado-Rated Hardware |
| Purpose | Long-term protection from sustained winds and debris. | Short-term protection from extreme winds and debris. |
| Standards | Florida Building Code (FBC). | FEMA 361 and ICC 500. |
| Testing | Static pressure, debris impact, and cyclical pressure. | Static pressure and 100 mph impact testing. |
| Application | Can use component listings. | Must be installed as an assembly. |
| Materials | Various materials. | Steel doors only for FEMA 361 compliance. |
Choosing the Right Windstorm-Rated Hardware
When selecting windstorm-rated hardware, consider the specific risks in your region. Coastal areas prone to hurricanes may prioritize FBC-compliant systems, while tornado-prone regions should invest in FEMA-rated assemblies for maximum protection.
By understanding the differences between hurricane- and tornado-rated hardware, building owners and facility managers can make informed decisions to safeguard lives and property.
Have questions about windstorm-rated hardware? Contact us to learn more about protecting your building against extreme weather events.
