Metal Buildings vs. Environmental Disasters – How Do They Hold Up?
As the world faces increasingly unpredictable and extreme weather events, the demand for resilient, long-lasting structures has never been greater.
Scientific evidence continues to show that climate change is intensifying environmental disasters, with wildfires, floods, heatwaves, and storms becoming more frequent and severe. These challenges put growing pressure on builders and engineers to design structures that can withstand extreme conditions, minimize damage, and ensure long-term safety.
When it comes to durability, structural integrity, and resilience, one material stands above the rest—steel.
Pre-engineered metal buildings (PEMBs) provide exceptional resilience and disaster resistance, offering a significant advantage over conventional construction. Designed to withstand floods, earthquakes, blizzards, hurricanes, extreme heat, bitter cold, and other harsh weather conditions, PEMBs ensure long-term durability in unpredictable environments.
In this post, we’ll explore why steel is the superior choice for building in an era of environmental uncertainty.
Advantages of Steel as a Building Material
Steel has consistently demonstrated its superior strength and durability in the face of environmental disasters, offering numerous advantages over traditional materials like wood and concrete. These advantages include, but are not limited to:
- Higher Strength-to-Weight Ratio: Steel is significantly stronger than wood and concrete for its weight, allowing for more efficient structural designs. Because of its enormous strength, steel can handle more weight on load-bearing walls.
- Resists Warping and Shrinking: Unlike wood, steel does not expand, contract, or warp due to moisture or temperature changes.
- Doesn’t Crack Under Stress: Concrete can crack under extreme pressure, while steel maintains its integrity under heavy loads.
Pre-Engineered Metal Buildings vs. Wildfires
Steel is one of the safest building materials for wildfire-prone areas, as its non-combustible nature prevents it from fueling fires or burning under extreme heat.
Pre-engineered metal buildings are designed to withstand high temperatures and, when combined with high-quality components like metal roofing and siding, galvanized secondary framing, and fire-resistant insulation, provide superior fire protection compared to most alternatives.
Additionally, components can be treated with fire-resistant coatings for even greater protection against extreme heat. Because of their exceptional fire resistance, many insurance providers offer lower premiums for metal buildings.
Learn More: MBMA Releases 2nd Edition of its Popular Fire Resistance Design Guide for Metal Building Systems
Pre-Engineered Metal Buildings vs Tornados & Severe Storms
Steel is an ideal building material for hurricane, storm, and tornado-prone regions due to its exceptional resistance to high winds and extreme weather conditions.
Multiple case studies outlined in this Wind Design and Performance publication by the Metal Building Manufacturers Association (MBMA) have demonstrated how metal buildings have withstood the impacts of major hurricanes. Here’s why:
- More Flexibility: One of steel’s greatest advantages is its flexibility, allowing it to bend under stress and return to its original shape without breaking, enabling metal buildings and their components, such as metal roofing or metal siding, to withstand extreme conditions and absorb high winds.
- Strength & Stability: Steel can be welded, bolted, or riveted in place, providing greater stability than wooden structures that rely on nails. Steel bracing and structural reinforcements evenly distribute forces, reducing the risk of uplift and collapse during tornadoes and hurricanes. Its inherent strength, combined with advanced engineering techniques, ensures buildings remain intact during severe windstorms. Additionally, steel’s weight acts as a natural anchor, making it a safer, more reliable choice in storm-prone regions.
- Protection Against Flying Debris: Steel provides superior protection against flying debris, one of the biggest threats during hurricanes and tornadoes. Unlike wood or other lightweight materials, steel’s strength makes it far more resistant to punctures from airborne objects, helping to safeguard the building’s interior and its occupants.
Pre-Engineered Metal Buildings vs Extreme Rain and Flooding
Steel building systems are designed to withstand extreme rain and flooding due to their corrosion-resistant materials and moisture-resistant construction. Keep reading to understand how:
- Resistant to Rust & Corrosion: One of the key advantages of metal buildings is their exceptional resistance to rust and corrosion. Steel naturally withstands moisture, preventing deterioration even in damp conditions. PBS metal building kits use galvanized steel, which offers enhanced protection, making it ideal for flood-prone areas. Unlike materials that suffer permanent water damage, galvanized and coated steel resists rust, ensuring long-term durability. Its ability to endure prolonged exposure to rain and humidity without degrading makes steel a superior, low-maintenance choice for damp environments.
- Maintains Structural Integrity: Heavy rainfall and storm surges during hurricanes can cause severe flooding, yet metal buildings consistently maintain their structural integrity in these conditions. While lumber weakens over time as it absorbs and releases moisture—leading to swelling, cracking, and structural instability—steel remains impervious to changing moisture levels, ensuring long-term durability. Case studies show that steel buildings excel in hurricane conditions.
Pre-Engineered Metal Buildings vs Earthquakes
Metal buildings offer superior earthquake resilience due to steel’s strength and flexibility. Unlike brittle materials like concrete, steel’s malleability allows it to bend rather than break under seismic stress, effectively absorbing and dissipating energy.
Pre-engineered metal buildings are designed to withstand seismic forces, using steel bolts in framing joints for enhanced durability. In contrast, wood construction, often secured with nails or fasteners, is more prone to separation under stress.
Why Metal Buildings from Pacific Building Systems Are a Smart Choice in a Changing Climate
As natural disasters become more frequent and severe, steel clearly remains one of the most resilient building materials. Here’s why PBS metal buildings stand out:
- High-Quality Steel Construction: PBS uses only the highest-grade steel to ensure long-lasting structural integrity.
- G-90 Galvanized Secondary Framing: All secondary framing components—including purlins, girts, doors, window framing, base, and gable angles—are G-90 galvanized, offering superior protection against corrosion and moisture.
- Heavy-Duty I-Beams: Unlike some manufacturers that use lightweight channels, PBS exclusively uses heavy steel I-beams, providing greater strength and stability.
- Protective Coatings on Panels: All PBS panels feature protective coatings over high-quality paint to prevent degradation and maintain structural integrity.
- Painted-Metal Sag Braces: PBS provides painted-metal sag braces, which help ensure that wall secondary members and panel screw lines remain straight, leading to more durable, longer-lasting installation.
- Engineered for Strength & Safety: PBS designs each metal building to withstand evolving climate challenges, ensuring resilience, safety, and longevity for decades to come.
Whether facing strong winds, heavy rain, coastal corrosion, or extreme temperatures, a PBS steel building provides superior protection, lower maintenance costs, and long-term peace of mind. We are here to help you customize your insulation package and answer any questions you have to make the best decision for your project.
For more information about our custom steel building solutions and insulation options, contact Pacific Building Systems today.
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