Shallow Foundation Single Bollard DSC635
Product Information
The DSC635 Shallow Foundation Single Bollard by Delta Scientific is a high-security solution designed to protect critical infrastructure where underground utilities and space limitations are a concern. Successfully tested to ASTM F2656-20 M50/P2 standards, this bollard can stop a 15,000-pound vehicle traveling at 50 mph with less than two feet of static penetration and 6.14 feet of dynamic penetration
Standing at 44 inches tall with a 15.75-inch diameter (including cover), the DSC635 features a shallow foundation design, making it ideal for sidewalks, campuses, parking structures, and government or corporate facility perimeters. Customizable decorative covers in stainless steel, powder-coated aluminum, or fiberglass are available to match surrounding aesthetics. Optional additions include lighting, beacons, and audible devices for enhanced safety protocols.
Specifications
| Crash Rating: | ASTM F2656-20 M50/P2 (P1 Static Penetration) |
| Vehicle Stopping Capacity: | Stops a 15,000 lb (6,800 kg) vehicle at 50 mph (80 km/h) |
| Static Penetration: | Less than 2 feet |
| Dynamic Penetration: | 6.14 feet |
| Foundation Type: | Shallow foundation design |
| Ideal Applications: | Locations with underground utilities or space limitations, such as sidewalks, campuses, parking structures, and government/corporate facility perimeters |
| Design Features: | Suitable for static arrays; customizable covers available |
Core Advantages
High Crash Rating Performance
Tested to ASTM F2656-20 M50/P2 standards, the DSC635 can stop a 15,000 lb vehicle traveling at 50 mph with minimal penetration, offering robust protection for critical infrastructure.
Shallow Foundation Design
Engineered for areas with limited underground space, this bollard is ideal for locations with underground utilities or constrained excavation zones, such as sidewalks and urban settings.
Customizable Aesthetic Options
The DSC635 supports decorative covers in stainless steel, aluminum, or fiberglass, and can be enhanced with lighting and audible devices—ensuring both safety and architectural integration.