Hull Length Range: 10M - 12M
Hull Beam Range: 3.5M - 3.7M
Our high-performance RHIBs excel in challenging environments, delivering unmatched reliability, exceptional handling, and superior maneuverability. Customized for stealth outfitting and mission-specific needs, trust Titan Boats to enhance your team's capabilities for successful operations in the toughest conditions.
Titan E series can be constructed in a Center Console, T-Top or Cabin configuration. The E series hull, also known as the SuperMax hull, can range in hull length size from 10.5M up to 13M. This hull has been thoughtfully designed to allow for up to 1800 HP*.
*Actual maximum horsepower may vary based on factors such as hull dimensions and engine weight and could be less than the stated limit.
Length: 10.67M
Beam (inflated): 3.69M
Beam (deflated): 2.92M
Tube Configuration: 24" Round, Inflatable
Superstructure: Cabin, Aft Leaning Windshield
Propulsion: Twin Outboard
Seating: 4 Shock-Mitigating Seats; Max Capacity 12 Persons
Fuel Capacity: 1,277 Litres
I.S.O. Category: B
Length: 10.59M
Beam (inflated): 3.55M
Beam (deflated): N/A
Tube Configuration: D-Collar
Superstructure: Cabin, Fwd or Aft Leaning Windshield
Propulsion: Twin Outboard
Seating: 4 Shock-Mitigating Seats; Max Capacity 14 Persons
Fuel Capacity: 1,581 Litres
I.S.O. Category: B
Conquer Extreme Conditions: Titan RHIBs shine in the harshest environments. Crafted in Canada, where rugged coastlines and unpredictable weather prevail, our vessels are extensively tested and refined to handle demanding conditions. Purpose-built to ensure safety and peak performance, even in pounding waves, icy waters, or turbulent winds.
Rely on Every Mission: Titan Boats, designed and crafted in Vancouver Island, Canada, sets the standard for reliability. Our meticulous construction, top-quality materials, and rigorous testing ensure durability and performance. Trust Titan Boats to withstand the toughest conditions and excel in every mission.
Designed for Operator Comfort: At Titan Boats, ergonomics is a top priority. We consider factors like shock-mitigation seating, optimal helm placement, equipment positioning, and noise reduction to create a comfortable and efficient working environment. This design focus minimizes the risk of long-term injuries, enhancing operator performance and well-being.