Glock 50961 Magazine Catch - 10mm/.45 ACP Models Black Aluminum

The Glock 50961 Magazine Catch delivers enhanced durability and precision for Glock's large-frame pistols in 10mm and .45 ACP configurations. This factory-manufactured component addresses the higher stress loads generated by these powerful cartridges with upgraded materials and engineering.

What Makes This Different

Unlike standard polymer magazine catches, the 50961 features black anodized aluminum construction that withstands the increased recoil forces of 10mm and .45 ACP rounds. The enhanced material composition provides superior wear resistance compared to factory plastic components. Precision machining ensures consistent magazine retention and smooth release operation across thousands of cycles.

Key Features

• Black anodized aluminum construction for maximum durability
• Direct replacement for Glock 20, 20SF, 21, 21SF, 29, and 29SF models
• Factory Glock specification ensures proper fit and function
• Enhanced corrosion resistance through anodized finish
• Maintains original grip texture and ergonomics
• Compatible with all factory and aftermarket magazines
• No gunsmith installation required

This magazine catch performs reliably under demanding conditions including competitive shooting, duty carry, and high-volume training sessions. The aluminum construction maintains dimensional stability across temperature extremes while providing consistent tactile feedback. Law enforcement agencies and competitive shooters report improved longevity compared to standard components when using high-pressure loads.

Technical Specs

• Material: Black anodized aluminum
• Compatibility: Glock 20, 20SF, 21, 21SF, 29, 29SF
• Finish: Type III hard anodized black
• Part Number: 50961
• Country of Origin: Austria
• Installation: Drop-in replacement
• Weight: Approximately 0.2 oz

The Glock 50961 Magazine Catch represents a practical upgrade for shooters who demand reliability from their large-frame Glock pistols. Factory engineering ensures seamless integration with existing components while providing enhanced service life for high-round-count applications.