Description
Product Details:
- High Quality CNC PR80 Steel
- Improves ROF
- The dimensions are:
– external diameter: 5.9 mm
– internal hole: 3 mm
– thickness: 2.55 mm
Full 5.9 mm PR80 steel bushings for MARUI NEXT GEN. CNC machined from solid -PR80 steel. Hardening treatment: Tenifer (Saline Ferritic Nitro-carbonation) This special low temperature thermo-chemical treatment in salt baths has been designed to greatly increase the surface hardness, fluidity and corrosion resistance of the material. 100% MADE IN ITALY
£25.00 inc. VAT
Product Details:
Weight | 0.2 kg |
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Dimensions | 10 × 5 × 3 cm |
This is a new modern design to work with the Prometheus Straight hop packing / rubber, but will work well even with the original TM design. Its meant to give a more stable flight than older hop rubber designs and a little more range.
High hardness and high stainless steel durable employed in, equipped with a heat sink for radiating heat generated at the time of compression in the surface, reducing the acceleration resistance due to thermal expansion of the piston O-ring. In addition, it aligns the variation to ensure the air capacity to meet a variety of barrel size, achieving a stability improvement of performance.
By intense reciprocating motion of the nozzle, based on the harsh conditions, the selection strength and durability, the excellent duralumin material to wear resistance. Also subjected to anodized aluminum surface treatment to reduce the wear loss (hardness UP), high-precision all-cutting adopted to improve the accuracy maintenance of the nozzle center position. Further subjected to tapered to reduce the loss of the flow rate to the inlet side of the air, LayLax aimed to improve the rectification effect and the flow velocity.
With vigorous reciprocating motion of the nozzle, based on the severe service conditions, and selecting the strength and durability, a duralumin material with excellent wear resistance. Also is subjected to anodized aluminum surface reduce the wear loss treatment (hardness UP), it is adopted high-precision all-cutting to improve the accuracy maintenance of the nozzle center position. Further subjected to taper machining reduce the loss of flow rate to the inlet side of the air, it was aimed to improve the rectification effect and the flow velocity.