Taken from the CB1, the Flares most distinguishing feature is its radically deep concave. Read More
Taken from the CB1, the Flares most distinguishing feature is its radically deep concave. The Flare is blindingly fast in all conditions and is amazing in fast hollow waves.
|5'10||18 7/8||2 5/16||26.9L|
|5'9||18 3/4||2 5/16||26.3L|
|6'0||19 1/8||2 3/8||28.9L|
|6'1||19 1/4||2 7/16||30.3L|
|6'2||19 1/2||2 1/2||31.8L|
|6'3||19 3/4||2 9/16||33.4L|
|6'4||19 7/8||2 5/8||34.8L|
Full single concave running very deep through fins. Speeed!
Nice free flowing rocker from nose to tail to handle speed, power and critical turns
Medium round forgiving rail
Slightly wider nose and tail template than a standard high performance shortboard for easier paddling and all round fun. Round tail as stock
5 fin Futures or FCS setup positioned to control the speed. Used as a thruster for turning and a quad for hold and speed control
PU construction by Euroglass. The “P” gets its name from both the resin and the foam: polyester resin and the “U” comes from polyurethane foam . PU is the traditional surfboard construction since foam core surfboards were invented. It is still the most widely used construction method today. PU is often incorrectly referred to as “fiberglass” construction – the reason this is incorrect is because the same exact fiberglass cloth is used in both PU and Epoxy construction types, it’s the foam core and resin that soaks into the fiberglass cloth (and foam) that differ. While PU construction is generally slightly heavier and isn’t quite as strong as Epoxy construction, it tends to have a more reliable and predictable feeling whilst surfing. This is due primarily to a slower flex pattern and denser foam than epoxy construction, which basically causes less “surprises” and more predictability while surfing, especially when making hard or sharp turns. PU construction tends to be more naturally conducive to color work, especially translucent resin tints. PU is also a bit less sensitive to water infiltration and heat than epoxy construction.