Item Number: SKU:T-HKEY-3s
Titanium Hex Key, Short, Metric
Titanium Hex Key, Short, Metric
What does this mean?
MR Safe – an item that poses no known hazards in all MRI environments. Using the terminology, “MR Safe” items are non-conducting, non-metallic, and non-magnetic items such as a plastic Petri dish. An item may be determined to be MR Safe by providing a scientifically based rationale rather than test data.
MR Conditional – an item that has been demonstrated to pose no known hazards in a specified MR environment with specified conditions of use. “Field” conditions that define the MR environment include static magnetic field strength, spatial gradient magnetic field, dB/dt (time rate of change of the magnetic field), radio frequency (RF) fields, and specific absorption rate (SAR). Additional conditions, including specific configurations of the item (e.g., the routing of leads used for a neurostimulation system), may be required.
MR Unsafe – An item that is known to pose hazards in all MRI environments. MR Unsafe items include magnetic items such as a pair of ferromagnetic scissors.
Titanium Hex Key Short
The Titanium Hex Key Short is engineered specifically for professionals who require MRI equipment and non-magnetic tools.
Key Features
- Fully non-magnetic and safe for use in MRI environments, reducing the risk of interference.
- High-Quality Titanium: Constructed from premium titanium for lightweight strength and durability.
- Short Design: Perfect for tight spaces and precise adjustments.
- Hypoallergenic: Safe for users with metal sensitivities or allergies.
- Versatile Use: An essential addition to your MRI product toolkit and any application where non-magnetic tools are required.
This titanium hex key is ideal for technicians, engineers, and healthcare professionals working with MRI products. Ensure your workspace stays safe and compliant with the best in non-magnetic, hypoallergenic tools.
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Additional Resources
Innovations in MRI-Conditional Transport Devices (2025 Trends)
Avoiding MRI Suite Accidents During Patient Transfers: Best Practices
