Last edited by Drowosek; 12-19-2023 at 10:23 AM.
I have told many times about Ukrainian propeller manufacturers and developers.
The Lugansk firm AERO provided thousands of our aviators with plastic propellers with classic shaped blades.
Then Lugaprop was spun off from it, and they began to work in parallel.
In 1993 in Kharkov two of our designers Pavel Dimitrov and Anatoly Vasiliev designed and started production of propeller VN-1 at our firm Lilienthal.
In 1995 it turned into a propeller with saber-shaped blades VN-3 Donchak. Its properties surpassed all known propellers at that time.
But in the future the quality of blade manufacturing fell. Lugaprop manufacturing quality has always been excellent and stable.
Around 2010 I managed to convince Lugaprop to buy the right to produce VN-3 Donchak propeller and join efforts to produce saber-shaped and classic blades.
Lugaprop was able to significantly expand the range of propellers produced. At this time NR-prop was separated from Lugaprop.
Later their paths diverged and now the nomenclature is different. Lugaprop now operates in Russia.
We in Kharkiv continue to work closely with NR-prop, which was forced to move from Lugansk to Kiev.
Our nomenclature of Meglin propellers is identical, the production of both classic and saber-shaped propellers has been preserved.
Ellipse-shaped blades have also appeared, as well as especially strong blades designed for engines without gearboxes or engines with increased power.
These blades were developed at the request of American pilots, owners of RV aircraft with Lycoming engines. Similar blades are also used by Jabiru owners.
We also try to keep the production of wooden propellers and various auxiliary products listed on the website: http://propeller.mozello.com/
The photo shows the VN-3 Donchak propellers.
Regards, Vladimir Meglinsky.
Drowosek - I'm curious as to what is wrong with 293mps? A quick look up says the speed of sound at 20C is 1235 km/hr (343 m/s). If my research and math is correct, tip speed would be about 85% sos. That's pretty much at the limit of efficiency for most propellers but it also isn't the cruise speed.
See my build log at:http://www.mykitlog.com/lowandslow/
The point is that the translational velocity is added to the circumferential velocity. In addition, the velocity of local currents due to the streamline of the profile is always greater. Local compaction jumps appear, noise and power losses increase sharply. Therefore, the circumferential speed is usually limited to 220 m/s, 240 in extreme case. Of course, the saber-shaped blade shape partially mitigates the negative effects of the sweep.