Using the design potential of blades


1. Large – size structures

a) bridges and footbridges
b) platforms
c) drawbridges
d) structural columns and beams of buildings and structures
e) formwork
f) strengthening of embankments and landslides
g) mole poles
h) animal passages
i) observation towers
j) reinforcement of building structures (carbon bands)

2. Small – sized structures

a) strengthening of embankments and landslides
b) strengthening the slopes of roads and tracks
c) elements of small urban and park architecture
– lamps
– shelters
– benches
– sun loungers
– flower beds
– elevated vegetable and herb beds
– trash boxes
– bicycle / car shelters

Use of the material potential of the propeller composite
  1. Creation of a new material consisting of a mixture of the milled blades and natural resources such as wood, plant fibers (other chemically hardenable composites, e.g. from a boat, can be used here). The material is under development at Anmet. It will enable the use of composites on a mass scale, replacing primarily wood.
  2. After the period of use of the material, due to its composition, it is suitable as a fuel for incineration plants.
Using the material potential of the fibers
  1. Recycling of carbon fibers in the pyrolysis process
    a) making needled nonwovens from pyrolysed fibers
    b) making nonwovens stitched from pyrolysed fibers
    c) recovery of fibers in the form of targeted strands according to idea and technology developed in Anmet
    d) making of stitched directional mats
Utilization of the chemical potential of the resin material

Production of thermal energy directly from pyrolysis and its use for technological and heating and cooling purposes in the immediate vicinity of the plant and in the plant itself.