When placed into a conical cut hole, the countersunk head will sit flush with or below the surface of the surrounding material, improving the finish of the product and removing any potential trip / catch hazard.
The head is designed to be driven by a hex key.
Stainless steel grade 304 (A2) for increased resistance to corrosion.
When placed into a conical cut hole, the countersunk head will sit flush with or below the surface of the surrounding material, improving the finish of the product and removing any potential trip / catch hazard.
The head is designed to be driven by a hex key.
Stainless steel grade 304 (A2) for increased resistance to corrosion.
When placed into a conical cut hole, the countersunk head will sit flush with or below the surface of the surrounding material, improving the finish of the product and removing any potential trip / catch hazard.
The head is designed to be driven by a hex key.
Stainless steel grade 304 (A2) for increased resistance to corrosion.
When placed into a conical cut hole, the countersunk head will sit flush with or below the surface of the surrounding material, improving the finish of the product and removing any potential trip / catch hazard.
The head is designed to be driven by a hex key.
Stainless steel grade 304 (A2) for increased resistance to corrosion.
When placed into a conical cut hole, the countersunk head will sit flush with or below the surface of the surrounding material, improving the finish of the product and removing any potential trip / catch hazard.
The head is designed to be driven by a hex key.
Stainless steel grade 304 (A2) for increased resistance to corrosion.
When placed into a conical cut hole, the countersunk head will sit flush with or below the surface of the surrounding material, improving the finish of the product and removing any potential trip / catch hazard.
The head is designed to be driven by a hex key.
Stainless steel grade 304 (A2) for increased resistance to corrosion.