The E-PROPS propellers are fully made in France (South-East, Provence, near the city of Sisteron).
The team of
53 aeronautical engineers and technicians is producing more than
75000 carbon blades per year.
The
7200 m² of ultra-modern workshops are equipped with 12 CNC machining centres.
E-PROPS parts are designed and manufactured to be very light and very strong at the same time.
Materials and manufacturing process are validated by many tests and are following a strict quality system.
Here below is detailed how are made the E-PROPS parts :
1- E-PROPS MANUFACTURING PROCESS : RTM
2- BLADES
3- PLUG'n'FLY BLADES FEET
1- E-PROPS MANUFACTURING PROCESS : RTM
All E-PROPS parts, blades, hubs and spinners, are made with manufacturing process called
RTM (Resin Transfer Molding).
This process is used by major companies as AIRBUS and BOEING for some critical ultra-light carbon parts on liner aircraft.
RTM is one of the best methods for mass production of composite parts.
It is primarily used to mold components with large surface areas, complex shapes and smooth finishes.
There are several benefits to using the Resin Transfer Molding process over the alternative processes available. Some key benefits include :
- Very good surface quality
- Very high fibers ratio
- Wide range of reinforcements
- Large or long and complex shapes
- Low environmental impact
- Labor savings
- No direct contact with the materials, far better for the operators' health
RTM process is realized by following a strict cycle of temperatures.
The cooking of carbon parts allows to improve certain properties, in particular mechanical and of resistance under very hot conditions.
To assure a strict quality control and the reproducibility of the production, the components are exactly weighed very throughout the manufacturing.
For example, 15 weighings are necessary for a propeller range Ultralights / Aircraft.
E-PROPS ensures the production monitoring by RFID and KANBAN method.
These methods and tools optimize the manufacturing quality, reassure and fluidify the supplies, allow the real-time follow-up of the production process, the traceability of all the manufacturing steps, and offer a set of successful and reliable indicators.
A
8-axis machining centre has been built by the E-PROPS team to allow the dimensional analysis, the rectification and the finish of the carbon parts automatically, without dismantling of the part.
It is equipped with a directional spindle programmed according to the digital definition of the part, with a wide tool store.
The precision of measure by the scanner laser is of 5/100th of millimeter.
The scanner sweeps the carbon part, the program recognizes it according to its database, then the different tools come to make all the finishing work: deburring, cut, drilling, sanding and polishing.
All the stages between the molds and the stock are automatic.
Carbon parts built with the RTM process then finished with a precise CNC centre, as E-PROPS propellers, are far superior to conventional "half-shell" fiberglass parts in terms of structural properties, quality, lightness and aesthetics.
2- BLADES
All E-PROPS blades are made in
CARBON BRAID + EPOXY RESIN.
-
CARBON BRAID, HCF process.
Carbon has an excellent compromise of rigidity/weight.
The use of a single material (carbon) is far better than the use of two materials, such as a mixture of fibreglass and carbon (often used to save carbon which is much more expensive than fibreglass).
Propellers with a single base material have a much higher potential (manufacturer recommended duration of use).
The
HCF process (Helical Continuous Fibers), specifically designed by E-PROPS, ensures an exceptional strength of the 100% carbon + epoxy resin blade, from leading edge to trailing edge, from blade's foot to tip.
To the contrary of the usual process called "half-shell", used by most of the manufacturers of composite propellers, the carbon fibers are continuous between the top and bottom surfaces.
The braid is made like a sock. The mechanical strength is increased and becomes very high : no risk of rupture by delamination of the leading edge, no craks on the blades or on the hub.
To make very strong carbon parts, the most important is to have the maximum of fibers and the minimum of resin; it means
a high fibers ratio.
Fibers is 50 times more resistant than resin.
Examples of tensile strengths :
- carbon : 4.000 MPa
- epoxy resin : 80 MPa
Parts made by E-PROPS have a very high carbon fiber ratio :
63% (which is exceptional).
For example, a 2 glued half-shell blade has a fiberglass fiber ratio of about 30%.
The gap is very important, because of the ratio, and because the carbon fibers are more resistant than glass fibers :
Values of tensile strengths :
- fiberglass : 2.600 MPa
- carbon : 4.000 MPa
- The
EPOXY RESIN is the resin preferred in aeronautics because it has :
* a very good mechanical and thermal properties
* a very big resistance to fatigue
* a good dimensional stability
* a chemical good performance
* and above all, an excellent adhesion on carbon fibers
The epoxy resin used by E-PROPS is including a high resistance to UV additive (UVA and UVB).
Details of the blades manufacturing :
- Foam core with internal spar (D-Box)
- On ultralights/LSA range : blade's foot with titanium ring inside
- 100% carbon, no metallic part = no galvanic corrosion
- Internal shielding of the leading edge : injection of a special resin with Nanostrength® => See details
LEADING EDGE PROTECTION
- Unique ref number on each blade for a perfect traceability (RFID chip inside) => See page
QUALITY
- Set of blades are balanced together, with a strict tolerance of static moment => See page
BALANCING
- Blades are polished for a perfect finition. No paint, no varnish. => See page
ENVIRONMENTAL RESPONSIBILITY
Internal spar in the blade (central section & blade root)
3- PLUG'n'FLY BLADES FEET
Fully made in carbon braid, as an extension of the blade, reinforced with more carbon layers.
Two sectionnable parts, very simple to assembly.
Thickness of the blade's foot :
- 28 mm for classic range (before 2018)
-
38 mm for Scimitar range (current range)