SECTION 12: EMPENNAGE FAIRINGS: Difference between revisions
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=== Build Instruction Updates === | |||
* N/A | |||
Check for more recent updates [https://www.vansaircraft.com/service-information-and-revisions/?aircraft=rv-10&doctype=revisions-changes&sort=date here] | |||
== Page 12-2 == | == Page 12-2 == | ||
* Step 1: Good results were achieved by clamping an aluminum strip along the recess edge and then using a Dremel with router attachment to square the edge. Even though the Dremel has the potential to eat into the aluminum strip, one can guide the Dremel in a fashion where it barely touches the strip. | * Step 1: Good results were achieved by clamping an aluminum strip along the recess edge and then using a Dremel with router attachment to square the edge. Even though the Dremel has the potential to eat into the aluminum strip, one can guide the Dremel in a fashion where it barely touches the strip. | ||
Revision as of 06:03, 12 June 2022
Build Instruction Updates
- N/A
Check for more recent updates here
Page 12-2
- Step 1: Good results were achieved by clamping an aluminum strip along the recess edge and then using a Dremel with router attachment to square the edge. Even though the Dremel has the potential to eat into the aluminum strip, one can guide the Dremel in a fashion where it barely touches the strip.
Page 12-3
- It is possible to 3D-print a mold and lay up a fiberglass cap that goes onto the leading edge of E-912 instead of building it up to match the curvature of E-913. The 3D-print project is here at Onshape. The 3D-printer file is here HS_Fairing_Mold1.stl.
- It is possible to 3D-print a mold and lay up a fiberglass insert that goes into HS-910. It has the right curvature and it has the necessary kink to match the Elevator counter weight leading edge. The 3D-print project is here at Onshape. The 3D-printer file is here HS_Fairing_Mold2.stl