MRI technology delivers some of the most precise and noninvasive diagnostic images in medicine. But the clarity and safety of those scans rely on something most […]
MRI systems are incredibly sensitive to radiofrequency (RF) noise. Without proper shielding, these signals—from cell towers, elevators, or even nearby electronics—can distort scan data or disrupt […]
MRI shielding is one of the most critical yet least visible components of imaging suite design. The materials behind your walls, floor, and ceiling directly determine […]
MRI rooms aren’t built like ordinary clinical spaces—and for good reason. Every MRI scanner generates powerful static and radiofrequency (RF) fields that can disrupt nearby equipment, […]
Building an MRI suite isn’t just a construction project—it’s a multidisciplinary compliance challenge involving electromagnetic physics, life safety engineering, and clinical workflow optimization. MRI room design […]
Magnetic Resonance Imaging (MRI) is one of the most advanced diagnostic tools in modern healthcare—but operating an MRI scanner safely requires more than just the equipment […]
Understanding how MRI systems interact with their environment is crucial for designing safe and high-performing imaging suites. One of the most common questions we hear from […]
Passive shielding is a foundational component of MRI suite design—and one of the most misunderstood. While most people think of the MRI magnet as self-contained, the […]
Active shielding is one of the most important—yet least visible—technologies inside an MRI system. While the average patient sees only the scanner, what’s happening behind the […]
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Refer to the attenuation characteristics charts to determine what material and cell size are right for your application.
Angle Frame:
This construction method typically involves a frame made of angled metal sections.
The frame is attached to the structure of the shielded enclosure, providing support for the waveguide material.
Angle frame construction is often used for installations where a rigid frame is required to maintain the shape and integrity of the waveguide panels.
Ducted:
Ducted waveguides are designed with a duct-like structure, allowing airflow to pass through the interior of the waveguide.
This construction method provides a pathway for air to flow while maintaining EMI/RFI shielding integrity.
Ducted waveguides are commonly used in HVAC systems where maintaining airflow is crucial, such as in data centers or industrial settings.
Ducted w/ Man Bars (Secure):
Ducted waveguides with man bars incorporate additional metal bars or grilles within the duct structure.
These man bars help to reinforce the waveguide and provide additional support for the ducted airflow.
This construction method is suitable for applications where increased structural integrity and security are required, such as in high-security environments or specialized industrial applications.
Download Failsafe MRI Air Seal Door Data Sheet
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Download Data Center Cabinet Data Sheet
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Download HEMP Shielded ISO Storage Containers Data Sheet
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Download Waveguides PoE Protections Data Sheet
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Download HEMP Door Data Sheet
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