Systems and methods for ignition source testing with flammable foam

The invention claimed is: 1. A testing method comprising: applying a flammable foam to at least a portion of a surface of a test article, wherein the flammable foam includes a fuel and an oxidant; applying an energy discharge to the test article with the flammable foam to create an ignition source along the portion of the surface of the test article, wherein the ignition source includes an electrical arc with an energy of greater than 50 μJ (microjoules); and determining whether the flammable foam ignited in response to the energy discharge; 2. The testing method of claim 1 , further comprising forming the flammable foam. 3. The testing method of claim 2 , wherein the forming includes bubbling a gaseous mixture of the fuel and the oxidant through a liquid solution to form the flammable foam, wherein the liquid solution includes at least one of soap, detergent, surfactant, oil, and water. 4. The testing method of claim 2 , wherein the forming includes forming trapped gas that includes the fuel and the oxidant in the flammable foam. 5. The testing method of claim 2 , wherein forming includes forming trapped gas within the flammable foam to produce a fractional volume of trapped gas of greater than 90%. 6. The testing method of claim 1 , wherein the test article has an interior and an exterior, and wherein the applying the flammable foam includes applying the flammable foam to the exterior of the test article. 7. The testing method of claim 6 , wherein the applying the energy discharge includes applying the energy discharge to the interior of the test article. 8. The testing method of claim 1 , wherein the applying the energy discharge includes applying at least one of a simulated lightning strike, an electrical discharge, an electrical arc, and heat to the test article. 9. The testing method of claim 1 , wherein the applying the energy discharge includes applying the energy discharge to the test article at an application site spaced apart from the flammable foam. 10. The testing method of claim 1 , wherein the applying the flammable foam includes selectively applying the flammable foam to one or more portions of one or more surfaces of the test article. 11. The testing method of claim 1 , wherein the applying the flammable foam includes applying the flammable foam to a first portion of the surface of the test article and leaving a second portion of the surface of the test article free of flammable foam. 12. The testing method of claim 1 , wherein the portion of the surface of the test article is a first portion, and further comprising applying a non-flammable foam to a second portion of the surface of the test article. 13. The testing method of claim 1 , wherein the determining includes determining a point of origin of ignition of the flammable foam. 14. The testing method of claim 1 , wherein the flammable foam includes a liquid matrix. 15. An ignition hazard testing method comprising: applying a flammable foam to at least a portion of a surface of a fuel system; applying an energy discharge to a test article with the flammable foam, wherein the test article includes the surface of the fuel system; determining whether the flammable foam ignited in response to the energy discharge; and combusting, after the determining, any unreacted flammable foam in contact with the test article by igniting the unreacted flammable foam with a controlled ignition source; wherein the flammable foam includes a liquid matrix that defines a plurality of cells that enclose trapped gas that includes a fuel and an oxidant, wherein an average effective diameter of the cells is less than 25,000 μm (microns), and wherein the flammable foam has a fractional volume of trapped gas of greater than 90%. 16. An aerospace component test system, comprising: a flammable foam that includes a fuel, an oxidant, and a liquid matrix, wherein the flammable foam is configured to ignite, and to substantially completely react at least one of the fuel and the oxidant, in response to the presence of an ignition source; a test article at least partially covered by the flammable foam; and an energy source configured to discharge energy into the test article; wherein the test system is configured to detect ignition sources generated on the test article by an energy discharge from the energy source. 17. The aerospace component test system of claim 16 , wherein the flammable foam includes trapped gas that includes the fuel and the oxidant. 18. The aerospace component test system of claim 16 , wherein the oxidant includes at least one of air and molecular oxygen, and wherein the fuel includes at least one of a hydrocarbon fuel, a flammable gas, molecular hydrogen, methane, propane, gasoline, and kerosene. 19. The aerospace component test system of claim 16 , wherein the flammable foam has a fractional volume of trapped gas of greater than 90%. 20. The aerospace component test system of claim 16 , wherein the flammable foam includes a plurality of cells that include trapped gas, wherein an average effective diameter of the cells is less than 25,000 μm.