Systems for monitoring the environmental history of a component

What is claimed is: 1. An indicator array for monitoring an environmental history of at least a part of a component, comprising: an array of energy exposure indicator pads direct-printed onto a surface of the component in a geometric pattern; wherein a plurality of energy exposure indicator pads in the geometric pattern include a mechanochromic material; a plurality of energy exposure indicator pads in the geometric pattern include a first thermochromic indicator responsive within a first temperature range; a plurality of energy exposure indicator pads in the geometric pattern include a second thermochromic indicator responsive within a second temperature range; and a plurality of energy exposure indicator pads in the geometric pattern include a third thermochromic indicator responsive within a third temperature range; provided that the first, second, and third temperature ranges are distinct from each other. 2. The indicator array of claim 1 , wherein the energy exposure indicator pads including the mechanochromic material and first, second, and third thermochromic indicators are interspersed across the geometric pattern. 3. The indicator array of claim 1 , wherein the energy exposure indicator pads including the mechanochromic material and first, second, and third thermochromic indicators are evenly distributed across the geometric pattern. 4. The indicator array of claim 1 , wherein the energy exposure indicator pads including the mechanochromic material are configured to indicate a localized impact on, or strain of, at least a portion of the component. 5. The indicator array of claim 1 , wherein the energy exposure indicator pads including a thermochromic material are configured to indicate a localized maximum temperature of at least a portion of the component. 6. The indicator array of claim 1 , wherein the component includes an area of interest, and the array of energy exposure indicator pads is direct-printed onto the surface of the component in a geometric pattern that at least overlaps with the area of interest. 7. The indicator array of claim 6 , wherein the geometric pattern features a higher relative concentration of the thermochromic indicator pads having a highest temperature range on or near the area of interest, and the geometric pattern features a higher relative concentration of the thermochromic indicator pads having a lowest temperature range further from the area of interest. 8. The indicator array of claim 1 , wherein the component includes a surface feature, and the array of energy exposure indicator pads is direct-printed onto the surface feature of the component. 9. The indicator array of claim 1 , wherein one or more of the energy exposure indicator pad materials is a luminescent reporter material. 10. A method of monitoring an environmental history of a component, comprising: direct-printing a geometric patterned array of energy exposure indicator pads on a surface of the component; wherein a plurality of energy exposure indicator pads in the geometric patterned array include a mechanochromic material that exhibits a first detectable optical response after exposure to an impact or a strain; a plurality of energy exposure indicator pads in the geometric patterned array include a first thermochromic indicator that exhibits a second detectable optical response when exposed to a temperature within a first temperature range; a plurality of energy exposure indicator pads in the geometric pattern include a second thermochromic indicator that exhibits a third detectable optical response when exposed to a temperature within a second temperature range; a plurality of energy exposure indicator pads in the geometric pattern include a third thermochromic indicator that exhibits a fourth detectable optical response when exposed to a temperature within a third temperature range; provided that the first, second, and third temperature ranges are distinct from each other; exposing the component to an environmental condition; illuminating the geometric patterned array at one or more wavelengths appropriate to interrogate the energy exposure indicator pad materials therein; detecting one or more of the first, second, third, and fourth detectable optical responses; correlating the detected optical responses with the environmental history of the component. 11. The method of claim 10 , wherein detecting one or more of the first, second, third, and fourth detectable optical responses includes detecting one or more distinct optical responses. 12. The method of claim 10 , further comprising localizing the first detectable optical response and correlating the localized first detectable optical response with a location of an impact on or strain of the component. 13. The method of claim 10 , further comprising correlating the second, third, and fourth detectable optical responses with a thermal history of the component. 14. The method of claim 10 , further comprising localizing the second, third, and fourth detectable optical responses and correlating the localized second, third, and fourth detectable optical responses with a spatial thermal history of the component. 15. The method of claim 10 , wherein detecting one or more of the first, second, third, and fourth detectable optical responses includes detecting a luminescence response. 16. The method of claim 15 , wherein detecting a luminescence response further comprises detecting at least one of a shift in luminescence wavelength and a change in luminescence intensity. 17. The method of claim 10 , wherein direct-printing the geometric patterned array of energy exposure indicator pads includes interspersing energy exposure indicator pads that include the mechanochromic material and first, second and third thermochromic indicators across the geometric patterned array. 18. The method of claim 10 , wherein direct-printing the geometric patterned array of indicator pads includes evenly distributing the energy exposure indicator pads that include the mechanochromic material and first, second and third thermochromic indicators within the geometric patterned array. 19. A system for monitoring an environmental history of a component having a surface, comprising: an array of energy exposure indicator pads direct-printed onto a surface of the component in a geometric pattern; wherein a plurality of energy exposure indicator pads in the geometric pattern include a mechanochromic material; a plurality of energy exposure indicator pads in the geometric pattern include a first thermochromic indicator responsive to temperatures within a first temperature range; a plurality of energy exposure indicator pads in the geometric pattern include a second thermochromic indicator responsive to temperatures within a second temperature range; a plurality of energy exposure indicator pads in the geometric pattern include a third thermochromic indicator responsive to temperatures within a third temperature range; provided that the first, second, and third temperature ranges are distinct from each other; an excitation source configured to illuminate the energy exposure indicator pads at a wavelength selected to elicit a detectable optical response from the energy exposure indicator pads; a detector configured to detect one or more optical responses from the energy exposure indicator pads including the mechanochromic material and first, second and third thermochromic indicators; and and a processor coupled to the detector configured to correlate the one or more detected optical responses with