JP SportstAir SE 14'0x30 Inflatable SUP Board 2019

£1199.00

JP SportstAir SSE 14'0x30 Inflatable SUP Board 2019: The all new Sportstair range is more stable, stiffer and lighter than last year’s models. A wider tail for stability, the stringer in addition to the Superior Edition construction for amazing stiffness and a new raked, race shaped fin for tracking.

Design details

SIZE: 14‘0“x30“ Sportstair SE SUP

SPORTSTAIR - LIGHT AND STIFF

TARGET GROUP: Advanced
SUITABILITY: For flat water and downwinders

The Sportstair range is stable, stiff and light. A wider tail for stability, the 3D stringer in addition to the Superior Edition construction for amazing stiffness and a raked, race shaped fin for tracking. This year we have added the 26” wide version for those advanced or lighter paddlers looking for a faster glide.

PACKAGE INCLUDES:

  • JP Sportstair SE 12’6 Inflatable SUP Board
  • SUP Bag
  • Fins
  • Pump
  • FREE 3-piece Paddle
  • FREE Leash

BOARD SPEC:

Length (cm) 426
Width (cm) 76
Thickness (Inch/cm) 6“/15.2
Vol. (Liters) 377
Weight (kg/lbs) 10.8/23.8
Center Fin (PE) 10.0”

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.