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Translations:KAVAN AP06A - Instruction Manual/44/en: Difference between revisions

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==== Propeller Size Recommendations ====
==== Propeller Size Recommendations ====
{| class="wikitable" style="width: 100%; text-align: left;"
Optimal diameter and pitch of the propeller needed depends on the model. The weight, or rather the wing loading and the aerodynamic clarity of the model play a role. Different requirements apply to slow high-wing aircraft (Piper – larger propeller with lower pitch) and to aerobatic "speedsters" (smaller diameter, higher pitch). It is likely that you will have to experiment a little to achieve a complete satisfaction. Using a propeller that is too small will force the engine to run at too high RPM. A propeller that is too large will "choke" the engine – the RPM will be too low. In both cases, this will lead to difficult carburettor adjustment and excessive engine wear with the risk of failure.
{| class="wikitable" style="width: 100%; text-align: center;"
|4.75×4.75“
|5×3“
|5.5×2“
|-
|5.5×2.5“
|5.7×3“
|6×2“
|-
|6×3“
|6×4“
|7×3“
|}
''Use a 5.7 x 3 propeller for the break-in procedure''

Latest revision as of 14:22, 31 October 2025

Message definition (KAVAN AP06A - Instruction Manual)
==== Propeller Size Recommendations ====
Optimal diameter and pitch of the propeller needed depends on the model. The weight, or rather the wing loading and the aerodynamic clarity of the model play a role. Different requirements apply to slow high-wing aircraft (Piper – larger propeller with lower pitch) and to aerobatic "speedsters" (smaller diameter, higher pitch). It is likely that you will have to experiment a little to achieve a complete satisfaction. Using a propeller that is too small will force the engine to run at too high RPM. A propeller that is too large will "choke" the engine – the RPM will be too low. In both cases, this will lead to difficult carburettor adjustment and excessive engine wear with the risk of failure.
{| class="wikitable" style="width: 100%; text-align: center;"
|4.75×4.75“
|5×3“
|5.5×2“
|-
|5.5×2.5“
|5.7×3“
|6×2“
|-
|6×3“
|6×4“
|7×3“
|}
''Use a 5.7 x 3 propeller for the break-in procedure''

Propeller Size Recommendations

Optimal diameter and pitch of the propeller needed depends on the model. The weight, or rather the wing loading and the aerodynamic clarity of the model play a role. Different requirements apply to slow high-wing aircraft (Piper – larger propeller with lower pitch) and to aerobatic "speedsters" (smaller diameter, higher pitch). It is likely that you will have to experiment a little to achieve a complete satisfaction. Using a propeller that is too small will force the engine to run at too high RPM. A propeller that is too large will "choke" the engine – the RPM will be too low. In both cases, this will lead to difficult carburettor adjustment and excessive engine wear with the risk of failure.

4.75×4.75“ 5×3“ 5.5×2“
5.5×2.5“ 5.7×3“ 6×2“
6×3“ 6×4“ 7×3“

Use a 5.7 x 3 propeller for the break-in procedure

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