Steel Navigation Buoys
Steel navigation buoys are essential maritime structures used to guide vessels safely through waterways, mark underwater hazards, or designate specific zones like anchoring areas. They are typically built with durable steel to withstand harsh marine environments, including saltwater corrosion, strong currents, and impacts from vessels.
GRP Skirt Keel Buoys
GRP Skirt Keel Buoys are durable and versatile floating markers widely used in maritime environments for navigation, mooring, and hazard marking. Constructed from Glass Reinforced Plastic (GRP), these buoys are highly resistant to corrosion, UV radiation, and harsh weather, ensuring long-lasting performance. Their skirt keel design provides enhanced stability, keeping the buoy upright even in turbulent waters, while minimizing rotational movement caused by strong currents or waves.
Steel Mooring Buoys
Steel mooring buoys are vital maritime markers, serving as solemn reminders and functional tools in coastal and open-water navigation. Built from durable steel, these buoys are designed to withstand harsh marine conditions while signaling significant locations such as memorial sites, underwater hazards, or areas of historical importance. Their robust construction ensures longevity, while their design often incorporates reflective coatings or lighting systems to enhance visibility.
Polyethylene Buoys
Polyethylene buoys are durable, lightweight, and versatile flotation devices commonly used in marine and offshore applications. Made from high-density polyethylene (HDPE), they offer excellent resistance to harsh environmental conditions, including UV rays, saltwater, and chemical exposure. These buoys are used for various purposes such as marking navigation routes, anchoring, and supporting marine structures like docks and fish farms. Their robust construction ensures long service life with minimal maintenance. Additionally, polyethylene buoys are environmentally friendly due to their recyclability, making them a sustainable choice for marine operations.