The Science of the Perfect Cup for Coffee 


Material research is behind the design of a temperature-regulating mug

Dr. Hongbin Ma was tired of drinking coffee that had gone cold. Fortunately, Ma, the CEO of ThermAvant Technologies LLC in Columbia, Missouri, was working on a NASA-funded study of phase-change materials, which are used to hold a steady temperature. Materials absorb or release more heat as they transition from solid to liquid or vice versa than they do before or after this phase change.

NASA has long used phase-changing materials to manage temperature extremes in space. The Apollo lunar rover, International Space Station, Orion capsule, and headlights on the newest spacesuit design all utilize phase-change material. As part of his NASA-funded research, Ma tested and recommended a phase-change material that could be used in a spacesuit-cooling system, a modified version of those used in spacecraft.  

A phase-change material needs to transition at the desired temperature, but it also needs to be safe. Paraffin wax and refrigerants are effective but are toxic to humans, which would make a leak hazardous. Ma’s team ultimately recommended a bio-based option for spacesuits.  

Bio-based waxes also proved to be the perfect solution for maintaining optimal temperature for coffee. In this case, it was a beeswax-like soy substance. Ma’s company, ThermAvant Technologies, took the opportunity to infuse the bio-based waxes into a product on Earth.   

Released in 2018, the Burnout Mug is vacuum insulated with the wax called HeatZorb, sealed between the inner and outer shells. The wax is formulated to maintain the ideal temperature for hot drinks over time. As soon as hot liquid goes in, the wax absorbs excess heat and melts, resulting in a drinkable temperature in just a few moments. As the coffee starts to cool, that stored heat is released back into it. 

The company is developing other uses for the same technology to meet unique needs in the medical field. Two in development are a small insulin container and a donor organ transportation box – both of which rely on specific, controlled temperatures. From hot beverages to life-saving medical equipment, NASA’s research continues to drive innovation across industries.  



Source link