Sandwich-structured panels and method of manufacture

What is claimed is: 1. A method of manufacturing a sandwich-structured panel, the method comprising: receiving an annular base having a radially-inner side defining a recess; receiving a first skin, a second skin and a cellular core; ultrasonically welding the first skin to the radially-inner side of the annular base so that a main portion of the first skin is received into the recess and a peripheral portion of the first skin outside of the main portion is welded to a peripheral portion of the annular base outside of the recess; after ultrasonically welding the first skin to the radially-inner side of the annular base, assembling the cellular core with the first and second skins so that: the cellular core is disposed between the first and second skins; the peripheral portion of the first skin is disposed outside a periphery of the cellular core; and the second skin has a peripheral portion disposed outside the periphery of the cellular core and facing the peripheral portion of the first skin, the peripheral portion of the second skin being adjacent the peripheral portion of the first skin; ultrasonically welding the peripheral portion of the first skin and the peripheral portion of the second skin together; and ultrasonically welding the second skin to the cellular core. 2. The method as defined in claim 1 , wherein: the main portion of the first skin defines a recess of the first skin; and the method includes: inserting the main portion of the first skin in the recess of the annular base before ultrasonically welding the first skin to the radially-inner side of the annular base; and inserting the cellular core in the recess of the first skin. 3. The method as defined in claim 1 , wherein the second skin is perforated. 4. The method as defined in claim 1 , wherein; the first skin defines a step-shaped transition between the peripheral portion of the first skin and the main portion of the first skin; and the main portion of the first skin is disposed inside the periphery of the cellular core. 5. The method as defined in claim 1 , wherein: the cellular core is a first cellular core; the peripheral portion of the second skin is a first peripheral portion of the second skin; the method includes: receiving a third skin and a second cellular core; assembling the second cellular core with the second and third skins so that: the second cellular core is disposed between the second and third skins; the second skin has a second peripheral portion disposed outside a periphery of the second cellular core; the third skin has a peripheral portion disposed outside the periphery of the second cellular core and facing the second peripheral portion of the second skin, the peripheral portion of the third skin being adjacent the second peripheral portion of the second skin; and ultrasonically welding the second peripheral portion of the second skin with the peripheral portion of the third skin together. 6. The method as defined in claim 5 , wherein the second skin defines a step-shaped transition between the first peripheral portion of the second skin and the second peripheral portion of the second skin. 7. The method as defined in claim 1 , comprising laying a foil between the peripheral portion of the first skin and the peripheral portion of the second skin before ultrasonically welding the peripheral portion of the first skin and the peripheral portion of the second skin together, the peripheral portion of the first skin and the peripheral portion of the second skin being ultrasonically welded together to form a lap joint. 8. A method of manufacturing an aircraft component, the method comprising: receiving an annular base having a radially-inner side defining a recess; receiving a backing member, a sheet and a cellular structure; ultrasonically welding the backing member to the radially-inner side of the annular base so that a main portion of the backing member is received into the recess and a peripheral portion of the backing member outside of the main portion is welded to a peripheral portion of the annular base outside of the recess; after ultrasonically welding the backing member to the radially-inner side of the annular base, assembling the cellular structure between the backing member and the sheet; and ultrasonically welding the backing member and the sheet together. 9. The method as defined in claim 8 , comprising ultrasonically welding the sheet to the cellular structure. 10. The method as defined in claim 8 , comprising: inserting the cellular structure in a recess formed in the backing member; and ultrasonically welding a peripheral portion of the backing member outside a periphery of the recess of the backing member to the sheet. 11. The method as defined in claim 8 , comprising ultrasonically welding strips in a layer-by-layer manner to build a feature off of the backing member or the sheet.