Abstract Biomimicry, emulating nature's time-tested strategies, has emerged as a powerful tool for solving complex engineering challenges. Over millions of years of evolution, organisms have developed highly efficient systems for survival in extreme environments, offering solutions that often surpass human-made technologies. Scientists can create materials that mimic nature's exceptional efficiency in regulating heat transfer by studying natural systems, such as polar bears fur or other organism's structures adapted to harsh climates. 
With its specialised multi-layered structure and optical properties, the polar bear's fur is an excellent model for managing heat retention. This study examines its insulating qualities using a comprehensive 3D simulation to understand how the structure regulates body heat. We use MATLAB to simulate radiative heat transfer between individual hair fibers while considering optical characteristics such as transmittance, absorption, and reflectivity. The results reveal that even in freezing temperatures (-40°C), the unique structure of polar bear hair considerably reduces radiative heat loss, keeping interior temperatures over 37°C. Additionally, according to our simulations, multi-layer hair arrangements increase thermal efficiency by up to 16°C, indicating conceivable uses for bio-inspired insulation materials. These results have consequences for ecological sustainability, the development of thermal insulation technology, and the design of energy-efficient materials and structures.
Read full abstract7-days of FREE Audio papers, translation & more with Prime
7-days of FREE Prime access