Annealed elastomeric thermoplastic powders for additive manufacturing, methods thereof, and articles including the powders

What is claimed: 1. An annealed additive manufacturing powder, where the annealed additive manufacturing powder is made according to the following method, the method comprising: annealing an unannealed additive manufacturing powder, wherein annealing includes: increasing a temperature of the unannealed additive manufacturing powder, wherein the unannealed additive manufacturing powder comprises a thermoplastic polyurethane (TPU) elastomer and a binding material, wherein the binding material comprises a first component and a ultraviolet (UV) light-activated free radical polymerization initiator, wherein the first component is a polyacrylate or a polyepoxide, wherein the temperature is increased to a temperature above the glass transition temperature of the unannealed additive manufacturing powder but below a melting temperature of the unannealed additive manufacturing powder for a first period of time; and decreasing the temperature of the unannealed additive manufacturing powder by at least 10 degrees Celsius after the first period of time to form the annealed additive manufacturing powder; wherein the unannealed additive manufacturing powder has a glass transition temperature and at least a primary melting temperature and a secondary melting temperature as determined by differential scanning calorimetry (DSC), wherein the primary melting temperature is at a higher temperature than the secondary melting temperature; wherein the glass transition temperature of the unannealed additive manufacturing powder is below 0 degrees Celsius, wherein the primary melting temperature of the unannealed additive manufacturing powder is above 120 degrees Celsius, wherein the unannealed additive manufacturing powder has a secondary melting temperature between the glass transition temperature and the primary melting temperature, wherein the secondary melting temperature of the unannealed additive manufacturing powder is about 30 degrees Celsius to about 100 degrees Celsius; and wherein the glass transition temperature of the annealed additive manufacturing powder is below 0 degrees Celsius and is within +/−5 degrees Celsius of the glass transition temperature of the unannealed additive manufacturing powder, wherein the primary melting temperature of the annealed additive manufacturing powder is above 120 degrees Celsius and is within +/−5 degrees Celsius of the primary melting temperature of the unannealed additive manufacturing powder, and wherein the secondary melting temperature of the annealed additive manufacturing powder is at least 30° higher than the secondary melting temperature of the unannealed additive manufacturing powder. 2. The annealed additive manufacturing powder of claim 1 , wherein increasing includes increasing the temperature of the unannealed additive manufacturing powder to at least 60 degrees Celsius and wherein the first time period is at least 5 minutes. 3. The annealed additive manufacturing powder of claim 1 , wherein the unannealed additive manufacturing powder has a first powder bulk density and the annealed additive manufacturing powder has a second powder bulk density, wherein the second powder bulk density is less than the first powder bulk density; and wherein the unannealed additive manufacturing powder has a first particle bulk density and the annealed additive manufacturing powder has a second particle bulk density, wherein the first particle bulk density is less than the second particle bulk density. 4. The annealed additive manufacturing powder of claim 1 , wherein the unannealed additive manufacturing powder has a first Hausner ratio as determined according to the ASTM D7481 standard (2009), wherein the annealed additive manufacturing powder has a second Hausner ratio as determined according to the ASTM D7481 standard (2009), wherein the second Hausner ratio is 5 percent lower than the first Hausner ratio. 5. The annealed additive manufacturing powder of claim 1 , wherein the unannealed additive manufacturing powder has a first avalanche angle as determined by the Revolution Powder Analyzer (RPA) according to the ASTM D7481 standard (2009), wherein the annealed additive manufacturing powder has a second avalanche angle as determined by the Revolution Powder Analyzer (RPA) according to the ASTM D7481 standard (2009), wherein the second avalanche angle is 5 percent lower than the first avalanche angle. 6. The annealed additive manufacturing powder of claim 1 , wherein the annealed additive manufacturing powder comprises a plurality of annealed additive manufacturing powder particles. 7. A structure, comprising an article which is the product of an additive manufacturing process including melting and re-solidifying a plurality of layers, each layer including plurality of annealed additive manufacturing powder particles of claim 1 . 8. The structure of claim 7 , wherein the article is an article of footwear, a component of footwear, an article of apparel, a component of apparel, an article of sporting equipment, or a component of sporting equipment. 9. The structure of claim 7 , wherein the article is an article of footwear. 10. The structure of claim 7 , wherein the article is a sole component for an article of footwear. 11. An article, where the article is made according to the following method, the method comprising: applying, during an additive manufacturing process, a first layer of an annealed additive manufacturing powder in a build compartment of an additive manufacturing device, wherein the annealed additive manufacturing powder comprises a plurality of annealed additive manufacturing powder particles of claim 10 ; affixing a portion of the plurality of the annealed additive manufacturing powder particles to each other in the first layer; and forming an additive manufactured article. 12. The article of claim 11 , wherein affixing includes: re-flowing a portion of the annealed additive manufacturing powder particles in the first layer to form re-flowed annealed additive manufacturing powder particles; and re-solidifying the re-flowed annealed additive manufacturing powder particles, thereby affixing the annealed additive manufacturing powder particles to one another. 13. The article of claim 12 , further comprising: applying a second layer of annealed additive manufacturing powder in a build compartment on the first layer, wherein the annealed additive manufacturing powder comprises the annealed additive manufacturing powder of claim 11 ; and affixing a portion of the annealed additive manufacturing powder particles to each other in the second layer. 14. The article of claim 12 , further comprising annealing an unannealed additive manufacturing powder to form the annealed additive manufacturing powder. 15. The article of claim 14 , wherein annealing comprises heating the unannealed additive manufacturing powder in a second compartment of the additive manufacturing device to form the annealed additive manufacturing powder prior to applying the first layer of the annealed additive manufacturing powder in the build compartment of the additive manufacturing device. 16. An annealed additive manufacturing powder, where the annealed additive manufacturing powder is made according to the following method, the method comprising: annealing an unannealed additive manufacturing powder, wherein annealing includes: increasing a temperature of the unannealed additive manufacturing powder, wherein the unannealed additive manufacturing powder comprises a thermoplastic polyurethane (TPU) elastomer and a binding material, wherein the binding material comprises a first component, an a