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A backpack and frame are disclosed, as are methods of making the frame using composite materials and compression molding. The backpack frame is designed to be at least partially internal and is of unitary construction using a resin-impregnated material, such as resin-impregnated carbon fiber sheets

A backpack and frame are disclosed, as are methods of making the frame using composite materials and compression molding. The backpack frame is designed to be at least partially internal and is of unitary construction using a resin-impregnated material, such as resin-impregnated carbon fiber sheets with selective reinforcement by interstitial layers. The frame has a mid-back portion that includes openings for independently positionable shoulder straps and a lower back portion that provides for a rotatable connection to a belt assembly. A pair of curved stay portions is contiguous with the mid-back portion of the frame and curves outwardly as the stay portions extend downwardly. The frame is preferably curved to match the curvature of the human back.

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1. A method of manufacturing a backpack frame, comprising: layering sheets of a first material cut to define the shapes of a mid-back portion having first and second elongate openings, the each elongate opening being arranged to receive a shoulder strap assembly, the shoulder strap assembly being in

1. A method of manufacturing a backpack frame, comprising: layering sheets of a first material cut to define the shapes of a mid-back portion having first and second elongate openings, the each elongate opening being arranged to receive a shoulder strap assembly, the shoulder strap assembly being independently positionable at a plurality of positions along a single one of the elongate openings, wherein the first elongate opening is angled relative to the second elongate opening,a lower portion extending downward from the mid-back portion, the lower portion forming a U-shaped tongue, anda pair of elongate stay portions, each elongate stay portion including a top end extending upward from the mid-back portion and laterally outward from the mid-back portion;arranging interstitial layers of reinforcing material selectively between the sheets of the first material so as to reinforce parts of the elongate stay portions, the mid-back portion, and the lower portion;applying a resin to the layered and arranged sheets of the first material and the interstitial layers to create a preform;applying defined conditions of elevated temperature and pressure to the preform for a defined period of time; andusing a mold to create the backpack frame from the preform. 2. The method of claim 1, wherein the sheets of the first material are sheets of carbon fiber material. 3. The method of claim 2, wherein the sheets of carbon fiber material comprise a about 12,000 carbon fiber filaments per strand, woven in a 2×2 twill pattern. 4. The method of claim 1, wherein the interstitial layers of reinforcing material arranged to reinforce the elongate stay portions comprise one or more layers of oriented carbon fiber weave. 5. The method of claim 4, wherein the layers of oriented carbon fiber weave are oriented along a long axis of the elongate stay portions. 6. The method of claim 1, wherein the interstitial layers of reinforcing material arranged to reinforce the mid-back portion and the lower portion comprise foam layers. 7. The method of claim 1, wherein the resin comprises an epoxy resin or a vinyl ester resin. 8. The method of claim 1, wherein the defined conditions of elevated temperature and pressure comprise a temperature in a range of about 100-180° F. and a pressure of about 10-12 tons distributed across a surface of the preform. 9. The method of claim 8, wherein the surface is an entire surface of the preform. 10. The method of claim 1, wherein applying the defined conditions of elevated temperature and pressure comprise beginning at a first temperature, increasing over time to a second temperature, and returning to the first temperature. 11. The method of claim 10, wherein the first temperature is about 100° F. and the second temperature is about 150° F. 12. The method of claim 1, wherein a bottom end cooperates with the lower portion to define a free space. 13. A method of manufacturing a backpack frame, comprising: layering sheets of a first material cut to define a shape including a mid-back portion having a first opening and a second opening, the first and second openings being arranged to receive shoulder strap assemblies such that each shoulder strap assembly is independently positionable at a plurality of positions along the openings, wherein the first opening is angled relative to the second opening,a lower portion contiguous with the mid-back portion, the lower portion forming a U-shaped tongue having a negative contour configured to receive a positive contour of a human back, anda pair of elongate stays extending away from the mid-back portion by extending upward and laterally outward from the mid-back portion, the pair of elongate stays are contiguous with the mid-back portion;arranging interstitial layers of reinforcing material selectively between the sheets of the first material so as to reinforce parts of the elongate stays, the mid-back portion, and the lower portion;applying a resin to the layered and arranged sheets of the first material and the interstitial layers to create a preform;applying of elevated temperature and pressure to the preform for a period of time; andusing a mold to create the backpack frame from the preform.