Part 1 of the Proof in Performance Series – Why SIPs Are Stronger by Design
In an industry driven by performance, it’s not enough to say a product is strong; you need the data to prove it. That’s exactly what Premier SIPS brings to the table. After all, performance shouldn’t just be promised—it should be proven. In this new Proof in Performance blog series, we’re highlighting the third-party research, structural testing, and long-term data that validate the benefits of SIPs. From energy savings to seismic strength, the numbers tell the story.
Let’s start where it counts: structural performance and long-term durability. Here's a quick look at the industry-backed studies that confirm why SIPs are one of the strongest building envelope systems available.
1. Structural Analysis of SIPs: Oak Ridge National Laboratory (ORNL)
As part of the Department of Energy’s Building Envelope Research Program, ORNL found that SIP assemblies demonstrate significantly higher racking strength than conventional stick-framed walls. The continuous bonding of foam core to OSB skins distributes loads evenly and minimizes weak points—making SIPs a more resilient choice in both vertical and lateral load situations.
⇒ Read the ORNL Structural Analysis Report
2. Durability Testing for SIPs: APA (Engineered Wood Association)
The APA conducted multiple tests to demonstrate how SIPs can withstand repeated seismic loads and perform reliably in high-stress conditions. Ultimately proving that the composite nature of SIPs makes them highly effective at distributing forces across entire wall surfaces.
⇒ Read the APA Cyclic Shear Wall Testing Report
3. Structural & Durability Testing: National Research Council Canada
This comprehensive study validated SIPs for use in demanding climates and structural applications, demonstrating high performance in terms of moisture resistance, long-term load, and overall reliability.
⇒ Read the NRC Structural & Durability Report
4. Creep Behavior of SIPs: USDA Forest Products Lab
Creep testing measures how materials perform under constant stress over time. SIPs showed excellent resistance to creep deformation, even after prolonged exposure to sustained loads. The peer-reviewed results confirmed minimal flexural deflection—meaning panels remain straight and structurally sound, even decades after installation.
⇒ Read the Creep Behavior USDA SIPs Study - Phase 1
⇒ Read the Creep Behavior Study USDA SIPs Study - Phase 2
⇒ View Flexural Testing After Creep - USDA SIPs Study Peer Review
5. Lateral Load Performance of SIP Walls and Diaphragms: USDA
Tested under simulated real-world conditions, SIPs showed superior performance in resisting lateral forces—further proving their value in seismic zones, high-wind areas, and buildings where racking strength is critical.
⇒ Wall with Full Bearing Study
SIPs aren’t just efficient, they’re engineered to last. These studies and tests tell a clear story: SIPs are stronger by design. The structural integrity of SIPs isn’t theoretical—it’s measurable, repeatable, and backed by decades of research from top engineering labs and agencies.
Whether you’re designing for seismic resilience, long-term load performance, or reduced deflection over time, Premier SIPS deliver results you can rely on—and research that backs it up.
Want more? Head to the Premier SIPS Resource Portal to explore full studies, test data, and structural details.