Dual-function heat indicator and method of manufacture

We claim: 1. A dual-function heat indicator for monitoring cumulative ambient heat exposure and peak ambient heat exposure, the dual-function heat indicator having a viewable layered configuration and comprising: a reference component; a cumulative exposure indicator configured to change in visual appearance in response to a predetermined cumulative heat exposure; a peak exposure indicator comprising: a meltable solid configured to scatter light and at least partially obscure any underlying layers, the meltable solid configured to melt in response to a predetermined peak heat exposure thereby affecting the visual appearance of the peak exposure indicator; and a substrate that is darker in appearance than the meltable solid of the peak exposure indicator; wherein the meltable solid has a melting point below about 70° C.; wherein the cumulative exposure indicator is functionally separate from the peak exposure indicator; and wherein the dual-function heat indicator indicates at least one of cumulative ambient heat exposure and peak ambient heat exposure by changing color. 2. The dual-function heat indicator of claim 1 , wherein the cumulative heat exposure color change is irreversible and occurs after a predetermined cumulative heat exposure. 3. The dual-function heat indicator of claim 2 , wherein the predetermined cumulative heat exposure comprises temperatures of at least about 37° C. lasting for about 30 days. 4. The dual-function heat indicator of claim 1 , wherein the substrate is blue or gray. 5. The dual-function heat indicator of claim 1 , wherein the darkness of the substrate is the result of an ink coated on the substrate. 6. The dual-function heat indicator of claim 1 , wherein the meltable solid of the peak exposure indicator comprises particles suspended in a binder material, wherein air gaps are created between particles of the meltable solid. 7. The dual-function heat indicator of claim 1 , wherein the meltable solid comprises a side-chain crystalline polymer technology. 8. The dual-function heat indicator of claim 1 , wherein the substrate is darker than the color of the reference component. 9. The dual-function heat indicator of claim 1 , wherein the cumulative exposure indicator comprises diacetylene-based ink configured to darken over time at a temperature-dependent rate. 10. The dual-function heat indicator of claim 1 , wherein the reference component comprises a color similar to the appearance of the cumulative exposure indicator after exposure to the predetermined cumulative heat exposure. 11. The dual-function heat indicator of claim 1 , wherein the reference component and the cumulative exposure indicator are included in the same layer. 12. The dual-function heat indicator of claim 1 , wherein the peak exposure indicator further comprises a laminating adhesive. 13. The dual-function heat indicator of claim 1 , wherein the reference component and the cumulative exposure indicator comprise a first layer, the peak exposure indicator comprises a second layer, and the substrate comprises a third layer. 14. The dual-function heat indicator of claim 13 further comprising a transparent PET film covering at least a portion of the first layer. 15. The dual-function heat indicator of claim 13 further comprising an adhesive layer covering at least a portion of the third layer. 16. The dual-function heat indicator of claim 15 further comprising a release liner positioned against the adhesive layer. 17. The dual-function heat indicator of claim 1 , wherein the cumulative exposure indicator comprises a layer of aluminum and an etchant configured to etch away the aluminum over time with exposure to heat so as reveal the underlying substrate. 18. The dual-function heat indicator of claim 17 , wherein the cumulative exposure indicator comprises a barrier coating configured to initially separate the etchant from the layer of aluminum and to control the rate at which the etchant reacts with the layer of aluminum. 19. The dual-function heat indicator of claim 17 , wherein the etchant is contained within a pressure-sensitive laminating adhesive layer. 20. The dual-function heat indicator of claim 17 , wherein melting of the meltable solid in response to a temperature event causes the peak exposure indicator to appear darker than the reference component. 21. The dual-function heat indicator of claim 17 , wherein the reference component comprises a first layer, the peak exposure indicator comprises a second layer, the cumulative exposure indicator comprises a third layer, and the substrate comprises a fourth layer. 22. The dual-function heat indicator of claim 21 , wherein the meltable solid configured to scatter light allows at least some light to pass through so that a visual change in appearance of the third layer is visible through the second layer. 23. The dual-function heat indicator of claim 21 , wherein the first layer includes an opening through which the second layer is visible. 24. The dual-function heat indicator of claim 21 further comprising a transparent film between the first layer and the second layer. 25. The dual-function heat indicator of claim 21 further comprising a barrier coating between the second layer and the third layer, the barrier coating configured to prevent the etchant from prematurely triggering the peak exposure indicator. 26. The dual-function heat indicator of claim 21 further comprising an adhesive layer. 27. The dual-function heat indicator of claim 26 further comprising a release liner positioned against the adhesive layer.