Turbofan:Blades: Difference between revisions
Created page with "=Blade design and manufacturing= This page explains how blades should be designed for efficiency, and how can a simple and low-cost manufacturing be relevant. The root/fixation…" |
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==Manufacturing propositions== | ==Manufacturing propositions== | ||
[http://en.wikipedia.org/wiki/Forging_press Hot pressing] is used to manufacture real-engines' blades, and [http://en.wikipedia.org/wiki/Hot_isostatic_pressing | [http://en.wikipedia.org/wiki/Forging_press Hot pressing] is used to manufacture real-engines' blades, and [http://en.wikipedia.org/wiki/Hot_isostatic_pressing hot isostatic pressing] possibly too, as explained on the ''How are made turbine blades'' [http://www.youtube.com/watch?v=vN3_Wkyl5PQ video]. I believe that a hot forging press can be done cheaply considering the small size of our blades. For the main fan, it thus may not be used. | ||
Work-hardening and head-treating have to be studied, and depend on the crafting method used in the first place. | Work-hardening and head-treating have to be studied, and depend on the crafting method used in the first place. |
Revision as of 00:53, 23 February 2011
Blade design and manufacturing
This page explains how blades should be designed for efficiency, and how can a simple and low-cost manufacturing be relevant.
The root/fixation/insert of the blade is discussed on the related subsystem design page: compressor, turbine or fan.
Blade designs for efficient air flow
Rotor and stator blades have to be carefully designed, since they provide the turbine all its power. Leaks (free air paths) have to be minimized. Swirls have to be avoided in the compressor and turbine for several stages to work. For that reason, the stator deflects air in the opposite direction than the rotor, allowing the next stage to perform as if it receives untouched air, or even better oriented in the most efficient direction for the rotor.
Manufacturing propositions
Hot pressing is used to manufacture real-engines' blades, and hot isostatic pressing possibly too, as explained on the How are made turbine blades video. I believe that a hot forging press can be done cheaply considering the small size of our blades. For the main fan, it thus may not be used.
Work-hardening and head-treating have to be studied, and depend on the crafting method used in the first place.
The metal used for the blades may be an aluminum alloy for the compressor, and a steel or nickel-rich alloy for the turbine because of heat.
Don't forget that the blade insert will have to be milled at some point.