Cell type fenders work by absorbing and dissipating the energy generated when a ship hits a pier, bollard or other structure at the water's edge. The flexible cell shape allows the fender to reduce impact stress and impact, thereby protecting the ship and reducing damage to infrastructure.
Following are some of the characteristics and benefits of the Cell type fender:
Modular Design: Cell fenders consist of modules connected to each other, allowing flexibility and adjustment in required length and width. Modules can be easily installed and replaced when needed, enabling more efficient maintenance and repairs.
Energy Absorption Capability: Fender Cells are designed to absorb and disperse the energy generated when a ship crashes. The flexible cell shape allows the fender to absorb kinetic energy, reducing stress on ships and coastal structures and protecting them from damage.
Optimal Protection: By using Cell type fenders, the risk of damage to ships and infrastructure can be significantly reduced. They provide effective protection against impacts and friction that may occur during ship loading and mooring operations.
Durable and Weather Resistant: Cell fenders are made of durable rubber and can withstand extreme weather conditions such as UV rays, salt water and fluctuating temperatures. They are designed to have a long life and maintain their performance in a variety of maritime environments.
Cell type fenders are used in a variety of maritime locations, including harbours, wharves, ship terminals and other coastal facilities. They help protect ships and infrastructure from damage caused by impact and provide added security during maritime operations.
In conclusion, Cell type fenders are an important and effective maritime safeguard to protect ships and coastal infrastructure. With their ability to absorb impact energy, Cell fenders help minimize damage and maintain safety in maritime operations.