Capable of many uses where excessive heat is being generated and a need for it to be removed or replaced is obvious. Originally developed and tested to offer a protective barrier for NASCAR pit crews in hot summer months, but through word of mouth it reached the US Armed Forces stationed in IRAQ. From there, additional testing and development has continued to create a more user friendly product for everyday use. Created by product developer Michael Webb along with a team of designers, including NASCAR veteran Larry McReynolds. The technology behind TXR2 uses several synthetic blends of material that act as a conduit for transferring cooling energy derived from a removable and replaceable cooling energy source. This source offers multiple options of usage and applications for the end product. Cooling energy is first activated by water, which when introduced begins a hyper-evaporation process that allows the material to maintain a cooler temperature than its environment. When implemented, the cooling energy is soon introduced to the surrounding material, which activates an overall cooling sensation and begins the transition of excessive generated heat to a reduced temperature. The Heat Transferring Composite project is supported by test conducted by NASA engineers and laboratories. The findings provided by NASA, which include the early development of the Primary Life Support System (PLSS), show the possibility of cooling energy transference and thermal transference through synthetic materials. As well as the generated data and feedback provided from testing with the US Armed Forces and NASCAR pit crews. tagheuerformula.