Warne V613M 30mm Low Scope Rings Matte Black 0 MOA Horizontal

The Warne V613M Horizontal Rings deliver precision scope mounting with zero MOA adjustment for shooters demanding consistent accuracy. These 30mm low-profile rings eliminate scope cant and maintain proper alignment across extended shooting sessions.

What Makes This Different

Warne's Vapor series construction uses aircraft-grade aluminum with a proprietary hardcoat anodizing process that resists wear better than standard mil-spec finishes. The horizontal split design distributes clamping forces evenly around the scope tube, preventing deformation that can affect tracking accuracy. Four-screw cap design provides 50% more surface contact than traditional two-screw rings.

Key Features

• 30mm tube diameter with low height profile for optimal cheek weld
• 0 MOA cant ensures perfect scope alignment without adjustment
• Matte black Vapor finish reduces glare and resists corrosion
• Horizontal split design prevents scope tube stress
• Four-screw cap construction for superior holding power
• Precision-machined aluminum construction for lightweight durability
• Compatible with Picatinny and Weaver rail systems

Field testing demonstrates these rings maintain zero through temperature extremes and heavy recoil cycles. The low mounting height accommodates standard stock configurations while providing adequate clearance for objective lenses up to 50mm. Matte finish eliminates reflective surfaces that could compromise concealment during hunting or tactical applications.

Technical Specs

• Ring diameter: 30mm
• Height: Low profile
• MOA adjustment: 0 degrees
• Material: Aircraft-grade aluminum
• Finish: Matte black Vapor coating
• Cap screws: Four per ring
• Rail compatibility: Picatinny/Weaver
• Weight: Approximately 3.2 oz per pair
• Torque specification: 18-20 inch-pounds

Professional gunsmiths and precision shooters choose Warne rings for their consistent return-to-zero capability and long-term reliability. The V613M model specifically addresses the need for low-profile mounting without sacrificing structural integrity or optical alignment.