With sustainable ultra lightweight design at its core, and a weight reduction of over 750kg on a typical A330 at high density versus, Hawk Duo LR is 20% lighter than its predecessor, reducing the cost of ownership and ongoing maintenance through its life-cycle.
Ideal for mainline Airbus twin aisle operators, Hawk Duo LR will be certified later this year for first deliveries in Q3 2027.
Highly re-cyclable and fully tested at the UK’s leading dynamic test centre MTEST, Mirus’s on-site dynamic test facility, the Hawk Duo LR is arguably one of the most sustainable economy seats available through its lifecycle.
"We are proud of the outstanding team work ,Hawk Duo LR utilises our next generation Hawk platform, features options typically expected of a mainstream economy cabin seat now configured for the A330. Mirus’ contemporary and modern ergonomic design enables incredible levels of comfort and leg room, which sets it apart from its competitors along with its green credentials lifecycle"
Marcus Williams, Global Sales & Marketing Director at Mirus
With the Mirus signature design DNA, the sculpted seating surfaces have undergone rigorous design, pressure mapping and testing procedures. The slimline armrests maximise seat width and space, and a generous 5” mechanical recline all combine to provide one of the most comfortable seats available.
Optional features available to address the needs of the most brand conscious of airlines include power/USB integration, PED holders, various comfort foam and headrest options, and the ability to customise the colour, material and design of dress covers.
With Mirus’ commitment to following best-in-class sustainability practices, the new Hawk Duo LR sheds almost 20% of weight compared to its predecessor, making it one of the lightest seats in its category and dramatically reducing fuel burn and C02. The simplicity in design, a low parts count, not layering components together with a higher than typical abuse and cyclic testing during development, means Hawk Duo LR is designed to offer exceptional reliability in service.