In one example embodiment, a strut for mounting a jet engine to a wing of an aircraft includes a plurality of engine mounts and a space frame truss supported from the wing and comprising front and aft portions, the front portion being coupled to and supporting the engine mounts, the aft portion exte
In one example embodiment, a strut for mounting a jet engine to a wing of an aircraft includes a plurality of engine mounts and a space frame truss supported from the wing and comprising front and aft portions, the front portion being coupled to and supporting the engine mounts, the aft portion extending upwardly and rearwardly from an aft end of the front portion. By removing the aft end of the strut from the core exhaust zone of the engine, substantial reductions in the weight and drag of the strut, and a corresponding increase in the specific fuel consumption of the associated aircraft may be achieved.
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1. A strut for mounting a jet engine to a wing of an aircraft, the strut comprising: a plurality of engine mounts; anda space frame truss supported from the wing and comprising a front portion and an aft portion, the front portion being coupled to and supporting the engine mounts, the aft portion ex
1. A strut for mounting a jet engine to a wing of an aircraft, the strut comprising: a plurality of engine mounts; anda space frame truss supported from the wing and comprising a front portion and an aft portion, the front portion being coupled to and supporting the engine mounts, the aft portion extending upwardly and rearwardly from an aft end of the front portion,wherein the aft portion of the space frame truss comprises: a lower frame having an aft end;an upper frame having an aft end; anda U-shaped aft frame disposed at an aft end of the aft portion and coupling the aft end of the lower frame to the aft end of the upper frame; andwherein the upper frame comprises: a rectangular frame comprising four chords coupled end-to-end at corners of the rectangular frame;an upper skin disposed on an upper surface of the rectangular frame, the upper skin defining an X-shaped pattern extending between diagonal corners of the rectangular frame; anda pair of stiffeners disposed on an upper surface of the upper skin and forming a cross extending between the diagonal corners of the rectangular frame. 2. The strut of claim 1, wherein the aft portion extends upwardly and rearwardly from the aft end of the front portion such that no part of the aft portion is disposed within a core exhaust zone of the jet engine. 3. The strut of claim 1, wherein the aft portion extends upwardly and rearwardly from a transverse plane of the space frame truss that is substantially coplanar with a core exit plane of the jet engine. 4. An aircraft comprising the strut of claim 1, wherein the jet engine comprises a turbofan engine. 5. The strut of claim 1, wherein a front end of the upper frame is coupled to an aft end of an upper frame of the front portion, and a front end of the lower frame is coupled to an aft end of a lower frame of the front portion. 6. The strut of claim 5, further comprising a plurality of transverse frames distributed between front and aft ends of the front portion. 7. The strut of claim 1, wherein the plurality of engine mounts comprise: a front engine mount dependent from a first bulkhead disposed at a front end of the front portion; andan aft engine mount dependent from a second bulkhead disposed between the first bulkhead and the aft end of the front portion. 8. The strut of claim 1, wherein the jet engine is surrounded by a streamlining nacelle, and further comprising a streamlining fairing disposed over the strut between the streamlining nacelle and a lower surface of the wing. 9. A method for mounting an engine to a wing of an aircraft, the method comprising: supporting a space frame truss from the wing, the space frame truss comprising front and aft portions, the front portion having a plurality of engine mounts dependent therefrom, the aft portion extending upwardly and rearwardly from an aft end of the front portion; andcoupling the engine to the engine mounts,wherein the aft portion of the space frame truss comprises: a lower frame having an aft end;an upper frame having an aft end; anda U-shaped aft frame disposed at an aft end of the aft portion and coupling the aft end of the lower frame to the aft end of the upper frame; andwherein the upper frame comprises: a rectangular frame comprising four chords coupled end-to-end at corners of the rectangular frame;an upper skin disposed on an upper surface of the rectangular frame, the upper skin defining an X-shaped pattern extending between diagonal corners of the rectangular frame; anda pair of stiffeners disposed on an upper surface of the upper skin and forming a cross extending between the diagonal corners of the rectangular frame. 10. The method of claim 9, wherein the engine comprises a jet engine, and wherein the supporting comprises configuring the space frame truss such that no part of the aft portion is disposed within a core exhaust zone of the engine. 11. The method of claim 10, wherein the engine comprises a turbofan engine, and wherein the supporting comprises configuring the space frame truss such that at least part of the aft portion is disposed within a fan exhaust zone of the engine. 12. The method of claim 9, wherein the supporting comprises coupling the front portion to the wing by a first link and coupling the aft portion to the wing by second, third and fourth links. 13. The method of claim 12, wherein the second link comprises a primary load path for transferring a thrust of the engine into the wing. 14. An aircraft, comprising: a fuselage;a wing coupled to the fuselage;an engine mounting strut supported from the wing, the engine mounting strut having an aft portion that extends upwardly and rearwardly from a transverse plane of the engine mounting strut; anda jet engine supported from the engine mounting strut;wherein no part of the aft portion of the engine mounting strut is disposed within a core exhaust zone of the engine;wherein the aft portion comprises: a lower frame having an aft end;an upper frame having an aft end; anda U-shaped aft frame disposed at an aft end of the aft portion and coupling the aft end of the lower frame to the aft end of the upper frame; andwherein the upper frame comprises: a rectangular frame comprising four chords coupled end-to-end at corners of the rectangular frame;an upper skin disposed on an upper surface of the rectangular frame, the upper skin defining an X-shaped pattern extending between diagonal corners of the rectangular frame; anda pair of stiffeners disposed on an upper surface of the upper skin and forming a cross extending between the diagonal corners of the rectangular frame. 15. The aircraft of claim 14, wherein the aft portion of the engine mounting strut is substantially coplanar with a core exit plane of the jet engine. 16. The aircraft of claim 14, wherein the jet engine comprises a turbojet engine, a low-bypass turbofan engine or a high-bypass turbofan engine. 17. The aircraft of claim 14, further comprising a first link coupling a front portion of the engine mounting strut to the wing, and second, third and fourth links coupling the aft portion of the engine mounting strut to the wing. 18. The aircraft of claim 14, further comprising: a streamlining nacelle surrounding the jet engine; anda streamlining fairing disposed over the engine mounting strut between the streamlining nacelle and a lower surface of the wing.
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