JP RivAir SE 9'6 Inflatable SUP Board 2019
JP RivAir SE 9'6 Inflatable SUP Board 2019: The proven shape of the Rivair has received a tech update for this year. The Superior Edition construction helped us skim down the weight of this white water virtuoso. This has helped us increase the maneuverability of this balanced shape. The standard full deck EVA pad ensures your feet stay in position in the sketchy sections of the most demanding descents.
SIZE: 9‘6“x35“ Rivair SE SUP
RIVAIR – WHITE WATER ACTION
TARGET GROUP: For flat-water beginners up to white water experts
SUITABILITY: For flatwater, rivers, and white water
The 3D Stringer has stiffened up the new Rivair and the new kick-up fin enables it to venture over any possible obstacle. The standard full deck EVA pad ensures your feet stay in position in the sketchy sections of the most demanding descents. The perfect tool for the white water descends!
- JP Rivair SE 9’6 Inflatable SUP Board
- SUP Bag
- FREE 3-piece Paddle
- FREE Leash
Length (cm) 289
Width (cm) 89
Thickness (Inch/cm) 6/15.2
Vol. (Liters) 318
Weight (kg/lbs) 10/22 Fin Kick up fin
SE = Superior Edition
PE = Polyethylene
SUPERIOR EDITION - SE CONSTRUCTION
The 3 pre-laminated composite layers consist of 2 airtight PVC sheets bonded to a Polyester 1000D fabric to create one super strong shell. This shell is then machine laminated directly onto the 500D Polyester Drop Stitch fabric. The pre-lamination and the composite structure create an unprecedented weight/stiffness/durability ratio ever produced in an inflatable SUP. Most of the boards are offered in 6” thickness, with the exception of the SurfAir 9’7” (4” thick) and the MonstAir 18’0” (8” thick).
3D STRINGER This year we are introducing an original technical solution - the 3D Stringer. The 3D Stringer connects the deck, rail and bottom into one stiffening U-beam. This has increased the stiffness of the boards up to 30%. Furthermore, the 3D Stringer increases the safety of the boards against leaking as we have dramatically increased the glued overlap surface in the high stress standing area.