Blue Force Gear Ten-Speed M4/AR-15 Magazine Pouch - Black Cordura

The Blue Force Gear Ten-Speed M4/AR-15 Magazine Pouch delivers rapid magazine access through its innovative elastic retention system. This low-profile pouch secures standard capacity magazines without bulky flaps or snaps that slow down reloads.

What Makes This Different

The Ten-Speed design uses military-grade elastic material instead of traditional rigid retention methods. This allows the pouch to accommodate various magazine types while maintaining consistent tension. The elastic construction reduces bulk by 40% compared to standard MOLLE pouches while providing faster access than traditional flap-secured designs.

Key Features

• Elastic retention system holds magazines securely without mechanical closures
• 1000D Cordura construction with reinforced stitching for extended durability
• MOLLE-compatible mounting system fits standard tactical gear
• Accommodates 30-round STANAG magazines for AR-15, M4, and M16 platforms
• Low-profile design reduces snag hazards during movement
• Ambidextrous operation for left and right-handed users
• Weighs only 2.1 ounces to minimize load-bearing equipment weight

Field testing demonstrates consistent magazine retention through dynamic movement scenarios including running, crawling, and vehicle operations. The elastic material maintains tension across temperature ranges from -20°F to 140°F. Competition shooters report average reload times 0.3 seconds faster than traditional flap pouches. The pouch functions reliably in sandy and muddy conditions where mechanical closures typically fail.

Technical Specs

• Dimensions: 3.5" H x 1.25" W x 1" D
• Weight: 2.1 ounces
• Material: 1000 Denier Cordura nylon with elastic retention
• Mounting: MOLLE/PALS compatible webbing attachment
• Magazine Compatibility: STANAG 30-round magazines
• Color: Black
• Country of Origin: USA
• Manufacturer Part Number: HWTSPM43BK

The Ten-Speed pouch represents a significant advancement in magazine storage technology for tactical applications. Professional users choose this design when mission success depends on reliable, rapid magazine changes under stress.