Rod from Fishing Precision Fdx River Feeder
There Rod from Fishing Precision Fdx River Feeder was specifically made for the Fishing in rivers or canals with strong currents.
In fact, thanks to the Crosted Reinforce technology, the Rod from Fishing Precision Fdx River Feeder Trabucco is able to resist extreme efforts: i joints I am reinforced with high resistance carbon bands.
In addition, the Power Joint technology goes to reinforce the grafts from the Cane Precision Fdx River Feeder through crossed bands with carbon X that take care of the effort peaks.
There Rod from Fishing Precision Fdx River Feeder was specifically made for the Fishing in rivers or canals with strong currents.
In fact, thanks to the Crosted Reinforce technology, the Rod from Fishing Precision Fdx River Feeder Trabucco is able to resist extreme efforts: i joints I am reinforced with high resistance carbon bands.
In addition, the Power Joint technology goes to reinforce the grafts from the Cane Precision Fdx River Feeder through crossed bands with carbon X that take care of the effort peaks.
Technical specifications
Rod from Fishing Precision Fdx River Feeder
152-11-510
Length: 3.6 m
Mildness: 125 cm
Sections: 3+2
Maximum power: 150 g (HH action)
152-11-520
Length: 3.9 m
Mirror: 136 cm
Sections: 3+2
Maximum power: 150 g (HH action)
Characteristics:
- Powerful action for fishing in rivers or canals with strong currents using feeder within 150 g, also ideal at sea from piers or cliffs.
- Natural cork handle and anti -slip Eva Calciolo.
- Steel vine reel door with rubber profiles, integrated into the base.
- S.H.M.R. Carbon: it is the material most widely used in medium -level rods because it is placed in the center of the crossroads costs/performance, responding to the requests that come from both directions with a balanced mix of power and lightness.
- Crosted Reinforced: the joints of the rods destined to endure extreme efforts require reinforcements that protect their integrity. We solve the problem with high resistance carbon bands, applied orthogonally with respect to the progress of the fibers.
- Power Joint: this technology gives strength to the grafts without exceeding in weight, because it uses the properties of high module carbon with which crossed bands are built, which take charge of the effort of effort at the level of the joints.
