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An insulative material and a method of forming the insulative material are provided. The insulative material is configured to change shape in response to temperature and thus, for example, the insulative material may become more insulative as the temperature decreases. For example, the insulative ma

An insulative material and a method of forming the insulative material are provided. The insulative material is configured to change shape in response to temperature and thus, for example, the insulative material may become more insulative as the temperature decreases. For example, the insulative material may include a plurality of fibers that change shape, such as by curling, in response to decreases in temperature, thereby correspondingly changing the insulative properties.

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1. Adaptive insulation comprising: an insulative material formed of at least first and second structural components, wherein the first and second structural components are joined together and are comprised of first and second materials, respectively, that have different coefficients of thermal expan

1. Adaptive insulation comprising: an insulative material formed of at least first and second structural components, wherein the first and second structural components are joined together and are comprised of first and second materials, respectively, that have different coefficients of thermal expansion such that the insulative material is configured to change shape in response to changes in temperature, wherein the insulative material is comprised of a plurality of fibers with some portion of each fiber formed of the first and second structural components, wherein each fiber is configured to curl so as to define a loop at a first temperature and to uncurl so as to straighten at a second temperature, wherein each of the plurality of fibers has a neutral temperature with the fiber configured to change shape as the temperature varies from the neutral temperature, wherein the plurality of fibers comprises first and second layers of fibers, wherein within the first layer, the plurality of fibers have a first neutral temperature and within the second layer, the plurality of fibers have a second neutral temperature, different than the first neutral temperature, and wherein the first and second layers of fibers are configured such that additional degrees of insulation are provided by the change in shape of the first and second layers of fibers; anda non-adaptive insulative material with the insulative material formed of at least the first and second structural components being integrated therewith. 2. Adaptive insulation according to claim 1 wherein the first and second materials both extend lengthwise along the respective fibers. 3. Adaptive insulation according to claim 2 wherein at least one of the first and second materials varies in at least one of relative position, shape or size in a lengthwise direction along the respective fibers. 4. Adaptive insulation according to claim 1 wherein the insulative material formed of at least the first and second structural components is bonded to portions of the non-adaptive insulative material. 5. Adaptive insulation according to claim 1 wherein the first neutral temperature is greater than the second neutral temperature, wherein the first layer of fibers is configured to change shape at a temperature between the first and second neutral temperatures while the second layer of fibers remain unchanged in shape, and wherein both the first and second layers of fibers are configured to change shape at a temperature below the second neutral temperature. 6. Adaptive insulation according to claim 1 wherein each fiber comprises an elongate member formed of one of the first and second materials and a plurality of portions formed of the other of the first and second materials, wherein the plurality of portions are positioned discontinuously along the elongate member. 7. Adaptive insulation according to claim 6 wherein the plurality of portions are positioned in an alternating manner along opposite sides of the elongate member. 8. Adaptive insulation according to claim 1 wherein each fiber comprises an elongate member formed of one of the first and second materials and surface portion formed of the other of the first and second materials that extends lengthwise along the elongate member and that has a shape or a thickness that varies along the elongate member. 9. A method of forming adaptive insulation comprising: forming an insulative material from at least first and second structural components, wherein the first and second structural components are joined together and are comprised of first and second materials, respectively, that have different coefficients of thermal expansion such that the insulative material is configured to change shape in response to changes in temperature, wherein the insulative material is comprised of a plurality of fibers with some portion of each fiber formed of the first and second structural components, wherein each fiber is configured to curl so as to define a loop at a first temperature and to uncurl so as to straighten at a second temperature, wherein some portion of the plurality of fibers has a neutral temperature with the fiber configured to change shape as the temperature varies from the neutral temperature, wherein forming the insulative material from a plurality of fibers comprises forming the insulative material from first and second layers of fibers, wherein within the first layer, the plurality of fibers have a first neutral temperature and within the second layer, the plurality of fibers have a second neutral temperature, different than the first neutral temperature, and wherein the first and second layers of fibers are configured such that additional degrees of insulation are provided by the change in shape of the first and second sets of fibers; andintegrating the insulative material formed of at least the first and second structural components with a non-adaptive insulative material. 10. A method according to claim 9 wherein integrating the adaptive insulative material with a non-adaptive insulative material comprises bonding the adaptive insulative material formed of at least the first and second structural components to portions of the non-adaptive insulative material. 11. A method according to claim 9 wherein the first neutral temperature is greater than the second neutral temperature, wherein the first layer of fibers is configured to change shape at a temperature between the first and second neutral temperatures while the second layer of fibers remain unchanged in shape, and wherein both the first and second layers of fibers are configured to change shape at a temperature below the second neutral temperature. 12. A method according to claim 9 wherein each fiber comprises an elongate member formed of one of the first and second materials and a plurality of portions formed of the other of the first and second materials, wherein the plurality of portions are positioned discontinuously along the elongate member. 13. A method according to claim 12 wherein the plurality of portions are positioned in an alternating manner along opposite sides of the elongate member. 14. A method according to claim 9 wherein each fiber comprises an elongate member formed of one of the first and second materials and surface portion formed of the other of the first and second materials that extends lengthwise along the elongate member and that has a shape or a thickness that varies along the elongate member. 15. Adaptive insulation comprising: an insulative material formed of a plurality of fibers having at least first and second structural components, wherein the first and second structural components are joined together and are comprised of first and second materials, respectively, that have different coefficients of thermal expansion such that the insulative material is configured to change shape in response to changes in temperature, wherein the second structural component is discontinuous in a lengthwise direction along the fiber such that regions that include the second material alternate with regions that are free of the second material in the lengthwise direction, wherein each of the plurality of fibers has a neutral temperature with the fiber configured to change shape as the temperature varies from the neutral temperature, and wherein the plurality of fibers comprises first and second layers of fibers, wherein within the first layer, the plurality of fibers have a first neutral temperature and within the second layer, the plurality of fibers have a second neutral temperature, different than the first neutral temperature, and that are configured such that additional degrees of insulation are provided by the change in shape of the first and second layers of fibers; anda non-adaptive insulative material with the insulative material formed of at least the first and second structural components being integrated therewith. 16. Adaptive insulation according to claim 15 wherein the first neutral temperature is greater than the second neutral temperature, wherein the first layer of fibers is configured to change shape at a temperature between the first and second neutral temperatures while the second layer of fibers remain unchanged in shape, and wherein both the first and second layers of fibers are configured to change shape at a temperature below the second neutral temperature. 17. Adaptive insulation according to claim 15 wherein each fiber comprises an elongate member formed of one of the first and second materials and a plurality of portions formed of the other of the first and second materials, wherein the plurality of portions are positioned discontinuously along the elongate member. 18. Adaptive insulation according to claim 17 wherein the plurality of portions are positioned in an alternating manner along opposite sides of the elongate member. 19. Adaptive insulation according to claim 15 wherein each fiber comprises an elongate member formed of one of the first and second materials and surface portion formed of the other of the first and second materials that extends lengthwise along the elongate member and that has a shape or a thickness that varies along the elongate member.