Helmets comprising additively-manufactured components

The invention claimed is: 1. A helmet comprising: an outer shell including a first shell member and a second shell member movable relative to one another to adjust the helmet to fit a wearer's head when the helmet is worn; and an impact absorbing inner liner disposed within the outer shell, the impact absorbing inner liner including a first liner portion disposed within the first shell member and a second liner portion disposed within the second shell member, wherein the first liner portion and the second liner portion each define a separate padding forming parts of the impact absorbing inner liner, the first and second liner portions being movable relative to one another when the first and second shell members are moved relative to one another; wherein at least one of the first liner portion and the second liner portion comprises a three-dimensional lattice structure formed of a plurality of unit cells and a liner skin integrally formed with the three-dimensional lattice structure, the liner skin defining part of a head facing surface of the impact absorbing inner liner, the liner skin adapted to contact a wearer's head when the helmet is worn, the liner skin comprising: at least one solid skin along the head facing surface of the impact absorbing inner liner; and at least one open lattice skin along the head-facing surface of the impact absorbing inner liner to define at least one exposed region of the three-dimensional lattice structure free of the solid skin. 2. The helmet of claim 1 , wherein a majority of a surface area of the head facing surface of the impact absorbing inner liner is occupied by the at least one open-lattice skin. 3. The helmet of claim 1 , wherein each open-lattice skin occupies a surface area of the head facing surface that exposes multiple unit cells of the three-dimensional lattice structure. 4. The helmet of claim 1 , wherein the first shell member is a front shell member and the second shell member is a rear shell member, the first shell member and the second shell member being slidably engaged such that movement of the front shell member and the rear shell member relative to each other adjusts at least a longitudinal size of a head-receiving cavity defined by the outer shell. 5. The helmet of claim 1 , wherein the impact absorbing inner liner has an outer shell facing surface and peripheral surfaces extending between the head facing surface and the outer shell facing surface, wherein one or more of the peripheral surfaces of the impact absorbing inner liner comprises an open-lattice skin that exposes multiple unit cells of the three-dimensional lattice structure. 6. The helmet of claim 5 , wherein the outer shell facing surface of the impact absorbing inner liner contacts the inner surface of the outer shell. 7. The helmet of claim 6 , wherein the liner skin further defines part of the outer shell facing surface of the impact absorbing inner liner. 8. The helmet of claim 7 , wherein the outer shell facing surface of the impact absorbing liner comprises at least one solid skin along the outer shell facing surface of the impact absorbing inner liner. 9. The helmet of claim 1 , wherein each open-lattice skin defines multiple openings into the three-dimensional lattice structure. 10. The helmet of claim 1 , wherein one or more of the at least one solid skin is shaped to define one or more indicia. 11. The helmet of claim 1 , further comprising an adjustment system operable to adjust the fit of the helmet on a wearer's head by moving the first and second shell members relative to one another. 12. The helmet of claim 1 , wherein the outer surface of the impact absorbing inner liner has a shape complementary to that of the inner surface of the outer shell. 13. The helmet of claim 1 , wherein the plurality of unit cells are based on a gyroid structure. 14. The helmet of claim 1 , further comprising a plurality of impact absorption padding components received by the impact absorbing inner liner, wherein the plurality of impact absorption padding components are disposed at selected locations around a wearer's head when the helmet is worn. 15. The helmet of claim 14 , wherein the plurality of impact absorption padding components comprise foam. 16. The helmet of claim 14 , wherein the plurality of impact absorption padding components comprise liquid crystal elastomer material. 17. The helmet of claim 16 , wherein the plurality of impact absorption padding components comprise inserts removably mountable to the impact absorbing inner liner. 18. The helmet of claim 14 , wherein the plurality of impact absorption padding components have a non-lattice structure. 19. The helmet of claim 14 , wherein each impact absorption padding component of the plurality of impact absorption padding components is an elongate member, the plurality of impact absorption padding components being arranged such that an elongated dimension of each impact absorption padding component extends in a direction that is generally radial with respect to a wearer's head when the helmet is worn. 20. The helmet of claim 19 , wherein each impact absorption padding component of the plurality of impact absorption padding components is generally column-shaped and is received within a corresponding generally column-shaped opening in the impact absorbing inner liner. 21. The helmet of claim 19 , wherein each impact absorption padding component of the plurality of impact absorption padding components extends at least half way through the impact absorbing inner liner along the direction that is generally radial with respect to a wearer's head when the helmet is worn. 22. The helmet of claim 21 , wherein each impact absorption padding component of the plurality of impact absorption padding components extends substantially all the way through the impact absorbing inner liner along the direction that is generally radial with respect to a wearer's head when the helmet is worn. 23. The helmet of claim 19 , wherein each impact absorption padding component of the plurality of impact absorption padding components is configured to attenuate a radial impact on the helmet by buckling along its elongated dimension.