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Passive coatings accelerate burning at interfaces between rapidly burning propellants and thermally conductive or endothermic inert surfaces. The coatings, useful in firearm cartridges, firearm chambers, and solid rocket motors, reflect infrared energy from the combustion gases to reduce heat loss t

Passive coatings accelerate burning at interfaces between rapidly burning propellants and thermally conductive or endothermic inert surfaces. The coatings, useful in firearm cartridges, firearm chambers, and solid rocket motors, reflect infrared energy from the combustion gases to reduce heat loss to the case or chamber and to accelerate ignition of the propellant. The reflective coating has a thermal breakdown temperature higher than the propellant ignition temperature. Firearm cartridges and chambers may have radial shoulder configuration that focuses a shockwave below a bullet base to reduce heat loss to the bullet and support bullet retention in the neck for a longer period of time.

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1. A firearm cartridge configured for housing a quantity of propellant, said propellant having an ignition temperature and, when ignited, a flame front, said cartridge having an interior surface which is at least partially coated with a reflective thermally insulating coating, wherein said coating h

1. A firearm cartridge configured for housing a quantity of propellant, said propellant having an ignition temperature and, when ignited, a flame front, said cartridge having an interior surface which is at least partially coated with a reflective thermally insulating coating, wherein said coating has a thermal breakdown temperature higher than the propellant ignition temperature such that the coating does not endothermically decompose and quench the flame front, and wherein said coating reflects heat to advance the flame front. 2. The firearm cartridge of claim 1, wherein the coating comprises a metallic oxide pigment having an emissivity in the range from about 0.2 to 0.65. 3. The firearm cartridge of claim 1, wherein the coating comprises a metallic oxide pigment selected from lead oxide, titanium dioxide, zirconia, and aluminum oxide. 4. The firearm cartridge of claim 1, wherein the coating comprises a thermally stable binder having a thermal breakdown temperature higher than the propellant ignition temperature. 5. The firearm cartridge of claim 1, wherein the coating comprises a thermally stable binder having a thermal breakdown temperature higher than the propellant ignition temperature selected from epoxies, silicones, polyesters, thermoplastic, phenolic resins, and polycyanurates. 6. A firearm cartridge, comprising:a case for housing a propellant, said propellant having an ignition temperature and, when ignited, a flame front, the case having,an aft end,a straight-walled portion connected to the aft end and defining a base cavity having an interior base diameter,a shoulder connected to the straight-walled portion,a neck connected to the shoulder and having an interior neck diameter, whereinthe interior base diameter is approximately at least twice the interior neck diameter, anda bullet at least partially nested within the neck, wherein the neck has an interior surface at least partially coated with a reflective thermally insulating coating, wherein said coating has a thermal breakdown temperature higher than the propellant ignition temperature such that the coating does not endothermically decompose and quench the flame front, and wherein said coating reflects heat to advance the flame front. 7. The firearm cartridge of claim 6, wherein the shoulder is configured radially to direct a shockwave to a focus point adjacent a base of the bullet. 8. The firearm cartridge of claim 7, wherein the shoulder has an elliptical configuration such that a phantom ellipsoid may be overlaid the shoulder and centered along a longitudinal axis of the case. 9. The firearm cartridge of claim 7, wherein the shoulder has a spherical configuration such that a phantom sphere may be overlaid the shoulder and centered along a longitudinal axis of the case. 10. The firearm cartridge of claim 7, wherein the shoulder has a parabolic configuration such that a phantom parabaloid may be overlaid the shoulder and centered along a longitudinal axis of the case. 11. The firearm cartridge of claim 10, wherein the case further includes a rimfire flash path. 12. The firearm cartridge of claim 6, wherein a base of the bullet is at least partially coated with a reflective thermally insulating coating, wherein said coating has a thermal breakdown temperature higher than the propellant ignition temperature, and wherein said coating reflects heat to advance the flame front. 13. A firearm cartridge, comprising:a case for housing a propellant, said propellant having an ignition temperature and, when ignited, a flame front, the case having,an aft end,a straight-walled portion connected to the aft end and defining a base cavity having an interior base diameter,a radial shoulder connected to the straight-walled portion,a neck having an interior neck diameter, wherein the interior base diameter is approximately at least twice the interior neck diameter, wherein the neck has an interior surface at least partially coated with a reflective thermally insulating coating, wherein said coating has a thermal breakdown temperature higher than the propellant ignition temperature such that the coating does not endothermically decompose and quench the flame front, and wherein said coating reflects heat to advance the flame front, anda non-radial neck/shoulder junction connecting the neck to the radial shoulder; anda bullet having a bullet base and at least partially nested within the neck, wherein the radial shoulder is configured to reflect a shockwave from a primer ignition to a focus point disposed along the longitudinal axis adjacent the bullet base. 14. The firearm cartridge of claim 13, wherein the bullet base is at least partially coated with a reflective thermally insulating coating, wherein said coating has a thermal breakdown temperature higher than the propellant ignition temperature, and wherein said coating reflects heat to advance the flame front. 15. The firearm cartridge of claim 13, wherein the bullet base is disposed proximate the neck/shoulder junction. 16. The firearm cartridge of claim 15, wherein the case further includes a rimfire flash path. 17. The firearm cartridge of claim 13, wherein the radial shoulder has an elliptical configuration such that a phantom ellipsoid may be overlaid the shoulder and centered along a longitudinal axis of the case. 18. The firearm cartridge of claim 13, wherein the radial shoulder has a spherical configuration such that a phantom sphere may be overlaid the shoulder and centered along a longitudinal axis of the case. 19. The firearm cartridge of claim 13, wherein the radial shoulder has a parabolic configuration such that a phantom paraboloid may be overlaid the shoulder and centered along a longitudinal axis of the case. 20. A firearm cartridge, comprising:an aft end;a cylindrical case wall connected to the aft end, the case wall having an interior surface and defining a cavity sized to contain a quantity of propellant having an ignition temperature and, when ignited, a flame front;a bullet having a base and at least partially nested within the case wall; anda reflective thermally insulating coating disposed at least partially along the interior surface and at least partially along the base of the bullet, wherein said coating has a thermal breakdown temperature higher than the propellant ignition temperature, and wherein said coating reflects heat to advance the flame front at the case wall interior surface. 21. The firearm cartridge of claim 20, wherein the coating comprises a metallic oxide pigment having an emissivity in the range from about 0.2 to 0.65. 22. The firearm cartridge of claim 20, wherein the coating comprises a metallic oxide pigment selected from lead oxide, titanium dioxide, zirconia, and aluminum oxide. 23. The firearm cartridge of claim 20, wherein the coating comprises a thermally stable binder having a thermal breakdown temperature higher than the propellant ignition temperature. 24. The firearm cartridge of claim 20, wherein the coating comprises a thermally stable binder having a thermal breakdown temperature higher than the propellant ignition temperature selected from epoxies, silicones, polyesters, thermoplastic, phenolic resins, and polycyanurates. 25. The firearm cartridge of claim 20, wherein the coating comprises titanium dioxide in an epoxy binder. 26. A firearm cartridge, comprising:a case for housing a propellant, said propellant having an ignition temperature and, when ignited, a flame front, the case having,an aft end,a straight-walled portion connected to the aft end and defining a base cavity,a shoulder connected to the straight-walled portion, anda neck connected to the shoulder;a bullet having a bullet base and at least partially nested within the neck; anda thermally insulating coating at least partially disposed on the bullet base and on an interior surface of the neck, wherein said coating has a thermal breakdown temperature higher than the propellant ignition temperature such that the coating does no t endothermically decompose and quench the flame front, and wherein said coating reflects heat to advance the flame front at the case wall interior surface. 27. The firearm cartridge of claim 26, wherein the coating comprises a metallic oxide pigment having an emissivity in the range from about 0.2 to 0.65. 28. The firearm cartridge of claim 26, wherein the coating comprises a metallic oxide pigment selected from lead oxide, titanium dioxide, zirconia, and aluminum oxide. 29. The firearm cartridge of claim 26, wherein the coating comprises a thermally stable binder having a thermal breakdown temperature higher than the propellant ignition temperature. 30. The firearm cartridge of claim 26, wherein the coating comprises a thermally stable binder having a thermal breakdown temperature higher than the propellant ignition temperature selected from epoxies, silicones, polyesters, thermoplastic, phenolic resins, and polycyanurates. 31. The firearm cartridge of claim 26, wherein the coating comprises titanium dioxide in an epoxy binder.