Sandwich panel inserts and related methods

The invention claimed is: 1. A method of installing an insert into a bore formed in a sandwich panel, the sandwich panel comprising a first skin, a second skin opposite the first skin, and a core therebetween, the method comprising: providing at least one insert, each of the at least one inserts comprising: a panel-engaging structure configured to engage one of the first skin and the second skin of the sandwich panel when the insert is installed in the sandwich panel; an opposing end opposite the panel-engaging structure; a body configured to engage the core of the sandwich panel when the insert is installed in the sandwich panel, the body having a hole formed therein, the hole extending from the panel-engaging structure into the body and to the opposing end; a retention feature configured to retain the insert in the sandwich panel without the use of adhesives, wherein the retention feature engages the sandwich panel when the insert is installed in the sandwich panel; and an anti-rotation feature configured to prevent rotation of the insert with respect to the sandwich panel, wherein the anti-rotation feature is configured to resist rotation of the insert with respect to the sandwich panel about a longitudinal axis of the hole, and wherein the insert is configured to receive a secondary object within the hole, the secondary object being configured to transfer a localized load to the sandwich panel via the insert; forming at least one bore in the sandwich panel, the first skin of the sandwich panel having a first inner surface and an opposite first outer surface, the second skin of the sandwich panel having a second inner surface and an opposite second outer surface, the first outer surface and the second outer surface facing away from one another, and the core being sandwiched between the first inner surface of the first skin and the second inner surface of the second skin, wherein the forming the at least one bore comprises forming at least one bore such that it extends through at least one of the first skin and the second skin, and into the core; and installing the at least one insert into a respective bore of the at least one bores, such that the panel-engaging structure of the insert engages the sandwich panel, and such that the body of the insert is positioned within the respective bore in the core of the sandwich panel, wherein the installing of the at least one insert comprises rotating the at least one insert about a longitudinal axis of the bore, and wherein the installing the at least one insert comprises breaking a bond between the first skin and the core and/or breaking a bond between the second skin and the core, adjacent the respective bore. 2. The method according to claim 1 , wherein the installing the at least one insert comprises rotating the at least one insert at least 5°, at least 10°, at least 20°, at least 30°, at least 40°, at least 50°, at least 60°, at least 70°, at least 80°, at least 90°, at least 120°, at least 150°, and/or at least 180°, and wherein the rotating the at least one insert effectuates at least one of engaging the retention feature with the sandwich panel and engaging the anti-rotation feature with the sandwich panel. 3. The method according to claim 2 , wherein the rotating the at least one insert about the longitudinal axis of the bore comprises rotating the at least one insert such that at least a portion of the panel-engaging structure is rotated to a position between the core and one of the first skin and the second skin. 4. The method according to claim 1 , further comprising inserting at least one secondary object within the hole of a respective insert of the at least one inserts, the at least one secondary object being configured to transfer a localized load to the sandwich panel via the insert. 5. The method according to claim 1 , wherein the installing the at least one insert is performed without the use of a potting compound, a quick-cure adhesive, or a UV-cure adhesive. 6. The method according to claim 1 , wherein one or more of the forming the at least one bore in the sandwich panel and the installing the at least one insert into the respective one of the at least one bores is automated. 7. The method according to claim 1 , wherein the panel-engaging structure is substantially triangular. 8. The method according to claim 7 , wherein the installing the at least one insert into the respective bore comprises installing the at least one insert such that at least a portion of the panel-engaging structure is positioned between the first inner surface of the first skin and the core. 9. A method of installing an insert into a bore formed in a sandwich panel, the sandwich panel comprising a first skin, a second skin opposite the first skin, and a core therebetween, the method comprising: providing at least one insert, each of the at least one inserts comprising: a panel-engaging structure configured to engage one of the first skin and the second skin of the sandwich panel when the insert is installed in the sandwich panel; an opposing end opposite the panel-engaging structure; a body configured to engage the core of the sandwich panel when the insert is installed in the sandwich panel, the body having a hole formed therein, the hole extending from the panel-engaging structure into the body and to the opposing end; a retention feature configured to retain the insert in the sandwich panel without the use of adhesives; and an anti-rotation feature configured to prevent rotation of the insert with respect to the sandwich panel, wherein the anti-rotation feature is configured to resist rotation of the insert with respect to the sandwich panel about a longitudinal axis of the hole, wherein the insert is configured to receive a secondary object within the hole, the secondary object being configured to transfer a localized load to the sandwich panel via the insert, and wherein the anti-rotation feature comprises a retainer; forming at least one bore in the sandwich panel, the first skin of the sandwich panel having a first inner surface and an opposite first outer surface, the second skin of the sandwich panel having a second inner surface and an opposite second outer surface, the first outer surface and the second outer surface facing away from one another, and the core being sandwiched between the first inner surface of the first skin and the second inner surface of the second skin, wherein the forming the at least one bore comprises forming at least one bore such that it extends through at least one of the first skin and the second skin, and into the core; installing the at least one insert into a respective bore of the at least one bores, such that the panel-engaging structure of the insert engages the sandwich panel, and the body of the insert is positioned within the respective bore in the core of the sandwich panel; and installing the retainer on at least one of the at least one inserts, the retainer being configured to resist movement of the at least one of the at least one inserts with respect to the sandwich panel. 10. The method according to claim 9 , wherein the retainer comprises a plurality of tabs, at least a portion of each of the plurality of tabs being configured to be positioned between the first inner surface of the first skin and the core or between the second inner surface of the second skin and the core. 11. The method according to claim 9 , wherein the retainer comprises a through-hole, and wherein the installing the retainer on at least one of the at least one inserts comprises installing the retainer such that the through-hole is substantially concentric with the hole of the body of the insert. 12. The method