Cooling material

We claim the following: 1. A cooling material for use with an assembled bodywear, comprising: a base fabric having a high wicking rate and having a performance characteristic; and a plurality of discontinuous absorbent polymer elements, each element consisting of a plurality of absorbent polymers that non-endothermically absorb water or another fluid, the plurality of discontinuous absorbent polymer elements attached to a body-facing side of the base fabric which is an innermost surface of the assembled bodywear, wherein the plurality of discontinuous absorbent polymer elements contact skin of a wearer when the assembled bodywear is worn, wherein the plurality of discontinuous absorbent polymer elements absorb about 3%-20% moisture by weight at 30° C. and 80% humidity, wherein fibers of the base fabric are less absorbent than the plurality of discontinuous absorbent polymer elements to form an absorption gradient to provide cooling by enhancing evaporative cooling of the cooling material, wherein a percentage of surface area coverage of the plurality of discontinuous absorbent polymer elements is from about 5% to about 50%, and wherein a placement and spacing of the plurality of discontinuous absorbent polymer elements leaves a portion of the base fabric uncovered by the plurality of discontinuous absorbent polymer elements and enables the base fabric to retain at least partial performance of the performance characteristic. 2. The cooling material of claim 1 , wherein the plurality of discontinuous absorbent polymer elements are at least two times more absorbent than fibers of the base fabric. 3. The cooling material of claim 2 , wherein the plurality of discontinuous absorbent polymer elements are at least ten times more absorbent than fibers of the base fabric. 4. The cooling material of claim 3 , wherein the plurality of discontinuous absorbent polymer elements are at least fifty times more absorbent than fibers of the base fabric. 5. The cooling material of claim 1 , wherein fibers of the base fabric absorb no more than 1.5% moisture by weight at 30° C. and 80% humidity. 6. The cooling material of claim 1 , wherein fibers of the base fabric absorb no more than 0.8% moisture by weight at 30° C. and 80% humidity. 7. The cooling material of claim 1 , wherein the base fabric has a wicking rate of greater than 3 inches in 10 minutes as defined by a Vertical Wick Test (AATCC 197). 8. The cooling material of claim 1 , wherein the plurality of discontinuous absorbent polymer elements have an enthalpy of less than 10 J g −1 as measured by differential scanning calorimetry (DSC) upon absorbing water or another fluid. 9. An article of bodywear comprising a cooling material, the cooling material comprising: a base fabric having a high wicking rate; and a plurality of discontinuous absorbent polymer elements, each element consisting of a plurality of absorbent polymers that non-endothermically absorb water or another fluid, the plurality of discontinuous absorbent polymer elements attached to a body-facing side of the base fabric which is an innermost surface of the article of bodywear, wherein the plurality of discontinuous absorbent polymer elements contact skin of a wearer when the article of bodywear is worn, wherein the plurality of discontinuous absorbent polymer elements are at least four times more absorbent than fibers of the base fabric to form an absorption gradient to provide cooling by enhancing evaporative cooling of the cooling material, wherein a percentage of surface area coverage of the plurality of discontinuous absorbent polymer elements is from about 5% to about 50%. 10. The article of bodywear of claim 9 , wherein the plurality of discontinuous absorbent polymer elements absorb about 3.0%-20% moisture by weight at 30° C. and 80% humidity. 11. A method of making a cooling material, comprising: selecting a base fabric having a high wicking rate and low absorbance, and having a performance characteristic; and attaching a plurality of discontinuous absorbent polymer elements on a body-facing side of the base fabric which is an innermost surface of assembled bodywear when the assembled bodywear is worn, wherein each element consists of a plurality of absorbent polymers that non-endothermically absorb water or another fluid, wherein the plurality of discontinuous absorbent polymer elements absorb about 3%-20% moisture by weight at 30° C. and 80% humidity, wherein fibers of the base fabric are less absorbent than the plurality of discontinuous absorbent polymer elements to form an absorption gradient to provide cooling by enhancing evaporative cooling of the cooling material, wherein a percentage of surface area coverage of the plurality of discontinuous absorbent polymer elements is from about 5% to about 50%, and wherein the placement and spacing of the plurality of discontinuous absorbent polymer elements enables the base fabric to retain partial performance of the performance characteristic. 12. The method of claim 11 , wherein the plurality of discontinuous absorbent polymer elements are at least two times more absorbent than fibers of the base fabric. 13. The method of claim 12 , wherein the plurality of discontinuous absorbent polymer elements are at least ten times more absorbent than fibers of the base fabric. 14. The method of claim 11 , wherein fibers of the base fabric absorb no more than 1.5% moisture by weight at 30° C. and 80% humidity. 15. The article of bodywear of claim 9 , wherein the plurality of discontinuous absorbent polymer elements have an enthalpy of less than 10 J g −1 as measured by differential scanning calorimetry (DSC) upon absorbing water or another fluid. 16. The article of bodywear of claim 9 , wherein the plurality of discontinuous absorbent polymer elements are at least two times more absorbent than fibers of the base fabric. 17. The article of bodywear of claim 9 , wherein fibers of the base fabric absorb no more than 1.5% moisture by weight at 30° C. and 80% humidity. 18. The method of claim 11 , wherein the plurality of discontinuous absorbent polymer elements have an enthalpy of less than 10 J g −1 as measured by differential scanning calorimetry (DSC) upon absorbing water or another fluid.