System and method to monitor a thermal environment of a composite structure using a thermochromatic witness assembly

What is claimed is: 1. A thermochromatic applique to monitor a thermal environment of a composite structure, the thermochromatic applique comprising: a polymeric material selected from the group consisting of pressure sensitive adhesives (PSAs), including liquid PSAs; resin materials, including silicone resins; base polymers, including polyimides; and polymeric paints, including epoxy paints and enamel paints; and, one or more thermochromatic probes mixed into the polymeric material to form a thermochromatic probe mixture, the thermochromatic probe mixture applied to a removable transparent polymeric film, or formed into the removable transparent polymeric film with a pressure sensitive adhesive (PSA) applied thereto, to form the thermochromatic applique, the thermochromatic applique configured to be applied directly and continuously to and removed from a surface of the composite structure, and configured to monitor the thermal environment of the composite structure during a time the thermochromatic applique is applied to the surface of the composite structure, by detecting one or more temperatures and one or more times the surface of the composite structure is exposed to the thermal environment. 2. The thermochromatic applique of claim 1 wherein the the one or more thermochromatic probes comprise a first series of thermochromatic probes and a second series of thermochromatic probes. 3. The thermochromatic applique of claim 1 wherein the polymeric material is liquid PSA, and a continuous layer of the thermochromatic probe mixture is sprayed or brushed onto a first side of the removable transparent polymeric film. 4. The thermochromatic applique of claim 1 wherein the polymeric material is polyimide, and the thermochromatic probe mixture is formed into either an extruded removable transparent polymeric film or a cast removable transparent polymeric film, with the pressure sensitive adhesive (PSA) applied to either the extruded removable transparent polymeric film or the cast removable transparent polymeric film. 5. The thermochromatic applique of claim 1 wherein the removable transparent polymeric film comprises a polyimide film. 6. The thermochromatic applique of claim 1 wherein the removable transparent polymeric film is a high temperature film that is stable at a temperature range of 200° F. (two hundred degrees Fahrenheit) to 500° F. (five hundred degrees Fahrenheit). 7. The thermochromatic applique of claim 1 wherein the one or more thermochromatic probes are selected to sense the one or more temperatures in the thermal environment having high heat conditions. 8. The thermochromatic applique claim 1 wherein the composite structure comprises an aircraft composite structure, and the thermochromatic applique monitors the thermal environment during the time the thermochromatic applique is applied to the surface of the composite structure, and maps a time-temperature history of the aircraft composite structure that is exposed to high heat conditions during a flight test, a ground test, or in-service monitoring of the aircraft composite structure. 9. A system to monitor a thermal environment of a composite structure to facilitate optimization of a design of the composite structure, the system comprising: a thermochromatic applique comprising: a polymeric material selected from the group consisting of pressure sensitive adhesives (PSAs), including liquid PSAs; resin materials, including silicone resins; base polymers, including polyimides; and polymeric paints, including epoxy paints and enamel paints; and a plurality of thermochromatic probes mixed into the polymeric material to form a thermochromatic probe mixture, the thermochromatic probe mixture applied to a removable transparent polymeric film, or formed into the removable transparent polymeric film with a pressure sensitive adhesive (PSA) applied thereto to form the thermochromatic applique, the thermochromatic applique applied directly and continuously to a surface of the composite structure to obtain a covered surface, and the thermochromatic applique monitoring the thermal environment of the composite structure during a time the thermochromatic applique is applied to the surface of the composite structure, by detecting one or more temperatures and one or more times the covered surface of the composite structure is exposed to thermal conditions during one or more tests performed in the thermal environment, to obtain an exposed surface having one or more maximum temperature locations; a light source configured to fluoresce the plurality of thermochromatic probes of the covered surface and the exposed surface, the plurality of thermochromatic probes selected to sense one or more temperatures in the thermal environment; an imaging device configured to image and record one or more images of the covered surface and the exposed surface, after application of the light source; a baseline map comprising one or more baseline colors and one or more baseline intensities, obtained by applying the light source to the covered surface and imaging the covered surface; one or more thermal maps each comprising one or more exposed colors and one or more exposed intensities, and each obtained by applying the light source to the exposed surface and imaging the exposed surface; and a time-temperature history of the composite structure, obtained by comparing color changes between the one or more exposed colors and the one or more baseline colors, and by comparing intensity changes between the one or more exposed intensities and the one or more baseline intensities. 10. The system of claim 9 wherein the plurality of thermochromatic probes comprise a first series of thermochromatic probes and a second series of thermochromatic probes. 11. The system of claim 9 wherein the thermochromatic applique comprises the plurality of thermochromatic probes mixed into a liquid PSA to form the thermochromatic probe mixture that is applied as a continuous layer onto a first side of the removable transparent polymeric film. 12. The system of claim 9 wherein the thermochromatic applique comprises the plurality of thermochromatic probes mixed into a polyimide to form the thermochromatic probe mixture that is formed into either an extruded removable transparent polymeric film or a cast removable transparent polymeric film, with a pressure sensitive adhesive (PSA) applied to the extruded removable transparent polymeric film or to the cast removable transparent polymeric film. 13. The system of claim 9 wherein the light source comprises at least one of an ultraviolet (UV) light source, an infrared (IR) light source, or an optical light source. 14. The system of claim 9 wherein the imaging device comprises at least one of a camera, including a digital camera; or a spectrophotometer. 15. The system of claim 9 wherein the composite structure comprises an aircraft composite structure, and the thermochromatic applique monitors the thermal environment during the time the thermochromatic applique is applied to the surface of the composite structure, and maps the time-temperature history of the composite structure that is exposed to high heat conditions during one or more tests comprising a flight test, a ground test, or in-service monitoring of the composite structure. 16. A method to monitor a thermal environment of a composite structure to facilitate optimization of a design of the composite structure, the method comprising the steps of: applying a thermochromatic applique, comprising: a polymeric material selected from the group consisting of pressure sensitive adhesives (PSAs), in