Laminar structure providing adaptive thermal insulation

The invention claimed is: 1. A laminar structure providing adaptive thermal insulation, comprising: a first layer, a second layer, at least one cavity between the first layer and the second layer, a gas generating agent having an unactivated configuration and an activated configuration, and an envelope enclosing the at least one cavity wherein the envelope includes a dosing aid, the dosing aid extending into the cavity and having a portion to which the gas generating agent is applied, said portion being included in the cavity, wherein the dosing aid is made of a material that is able to absorb or adsorb the gas generating agent in the unactivated configuration of the gas generating agent, wherein the laminar structure is configured to reversibly change, in response to an increase in temperature, a distance between the first layer and the second layer, from a first distance in the unactivated configuration of the gas generating agent to a second distance in the activated configuration of the gas generating agent, and in response to a decrease in temperature, from the second distance in the activated configuration of the gas generating agent to the first distance in the unactivated configuration of the gas generating agent. 2. The laminar structure according to claim 1 , wherein the gas generating agent is adapted to generate gas in the cavity in response to temperature in the cavity exceeding a predetermined activation temperature of the gas generating agent. 3. The laminar structure according to claim 1 , wherein the second distance between the first layer and the second layer in the activated configuration of the gas generating agent is larger than the first distance between the first layer and the second layer in the unactivated configuration of the gas generating agent by a distance of 1 mm or more. 4. The laminar structure according to claim 1 , wherein the envelope is configured such that a volume of the at least one cavity increases in response to the increase in gas pressure inside the at least one cavity. 5. The laminar structure according to claim 1 , wherein the envelope is fluid tight. 6. The laminar structure according to claim 1 , wherein the envelope is made of a non-stretchable material. 7. The laminar structure according to claim 1 , wherein the envelope is made of a temperature resistant material with respect to a range of temperatures in the cavity in the activated configuration. 8. The laminar structure according to claim 1 , wherein the envelope is made of at least one envelope piece of a fluid tight material. 9. The laminar structure according to claim 1 , wherein the envelope is made of a metal/polymer composite material. 10. The laminar structure according to claim 1 , wherein the gas generating agent is in the form of a liquid in the unactivated configuration, the activation temperature of the adaptive thermal insulation laminar structure corresponding to a boiling temperature of the gas generating agent. 11. The laminar structure according to claim 10 , wherein the gas generating agent is in the form of a solid in the unactivated configuration, the activation temperature of the adaptive thermal insulation laminar structure corresponding to a sublimation or decomposition temperature of the gas generating agent. 12. The laminar structure according to claim 10 , wherein the gas generating agent has an evaporation temperature below 200° C. 13. The laminar structure according to claim 12 , wherein the liquid comprises CF 3 CF 2 C(O)CF(CF 3 ) 2 . 14. The laminar structure according to claim 1 , wherein the gas generating agent is in the form of a liquid, a gel or a solid in the unactivated configuration, the activation temperature of the adaptive thermal insulation laminar structure being a temperature which corresponds to the activation energy of a chemical reaction leading to release of at least one gaseous compound from the gas generating agent. 15. The laminar structure according to claim 1 , wherein the dosing aid is smaller than the cavity in the unactivated configuration of the gas generating agent. 16. The laminar structure according to claim 1 , wherein the dosing aid is made of a material that is able to support the formation of a fluid tight seal when being welded together with the envelope. 17. The laminar structure according to claim 16 , wherein the dosing aid is provided as a sheet forming a weldable dosing aid layer. 18. The laminar structure according to claim 1 , wherein the envelope includes an intermediate layer separating the cavity into a first subcavity and a second subcavity, the intermediate layer having a first side and a second side. 19. The laminar structure according to claim 18 , wherein the intermediate layer is made of a fluid tight material and is configured to support the formation of a fluid tight seal when being welded together with the envelope. 20. The laminar structure according to claim 18 , wherein the gas generating agent is applied to the first side, the second side, or the first side and the second side of the intermediate layer. 21. The laminar structure according to claim 1 , further comprising an envelope structure formed by at least two of said envelopes bonded together. 22. The laminar structure according to claim 1 , further comprising a plurality of cavities, each of the cavities being encased by a respective said envelope, wherein the envelopes are arranged a distance from each other. 23. The laminar structure according to claim 1 , wherein the cavity has a lateral dimension of 1 mm or more in the unactivated configuration and a thickness dimension of 2 mm or less. 24. The laminar structure according to claim 1 , wherein the cavity has a relative volume increase between 10 and 2000 with respect to the volume of the cavity when in the activated configuration compared to the unactivated configuration. 25. The laminar structure according to claim 8 , wherein the envelope is made of at least a first piece and a second piece, said first and second pieces being bonded together in a fluid tight manner. 26. The laminar structure according to claim 12 , wherein the evaporation temperature is between 30° C. and 100° C. 27. The laminar structure according to claim 1 , wherein the cavity has a lateral dimension of 5 mm or more in the unactivated configuration and a thickness dimension of 2 mm or less. 28. A laminar structure providing adaptive thermal insulation, comprising: a first layer, a second layer, at least one cavity between the first layer and the second layer, a gas generating agent having an unactivated configuration and an activated configuration, and an envelope enclosing the at least one cavity wherein the envelope includes a dosing aid, the dosing aid extending into the cavity and having a portion to which the gas generating agent is applied, said portion being included in the cavity, wherein the dosing aid is made of a material that is able to support the formation of a fluid tight seal when being welded together with the envelope, wherein the laminar structure is configured to reversibly change, in response to an increase in temperature, a distance between the first layer and the second layer, from a first distance in the unactivated configuration of the gas generating agent to a second distance in the activated configuration of the gas generating agent, and in response to a decrea