| | | Technique: The reinforcements are successively impregnated in the mould, then degassed. Once laminating has terminated, it is all vacuum compacted during the polymerization. Advantages: Technique universally employed, Resin qualities: Middle range viscosity, ensuring good vertical wall application. Examples: EPOLAM 2015, 2010, 2020, 2028 | | Technique: The reinforcements are placed under vacuum between a rigid mould and a vacuum bag. The resin is sucked into the part through the reinforcements. Advantages: The resin is distributed equally, without excess, and without any operator contact. Resin qualities: Low viscosity and good wettability. Examples: EPOLAM 5015, 2035/2025, 2080/2025. | | |
| | | RTM Technique: The reinforcements are placed in a two parts rigid mould. The resin is injected with or without vacuum assistance. Advantages: Immediate finishing of the two sides of the part, low dimensional tolerance. Resin qualities: Very low viscosity, very good wettability of the reinforcements. Examples: EPOLAM 2063 | | |
| | | Technique: The fibres are wound on a rotating mandrel. The movement of the lay-on head along the rotation axis enables the fibres to be directed. Advantages: Continuous process for obtaining rotation parts. Resin qualities: Long elongation at break, long pot life. Examples: EPO 912 | | |
| | | .> Fabric and multiaxis: CARBON or GLASS, woven or multiaxis, they have been tested and selected for their complete compatibility with the AXSON range of boat resins and for the quality of the results obtained. All weaves and weights, all titration. Panels for industrial applications, aluminium or composite skins (glass or carbon), aluminium or phenolic core. High or ambient temperature applications. -'Prepregs: r* HX42, HX50: Low temperature polymerizing tool prepregs. ^ High thermal resistance after post-curing (200°C). E644, E720: Prepregs for parts, low to medium polymerization temperature. Numerous variants for different applications. | | |