How Heatbands Work

Utilising Space Age technology HeatBands™ insulate the vulnerable area around the wrist preventing heat loss and reflecting the body’s own heat back to that area thus promoting a better flow of warm blood into the hands and fingers.

heatbands_large_600x512

How the body loses heat

wedeliverheatbandsworldwidePhysiologically, heat is generated in the muscles by metabolic chemical reactions, mainly in the liver. Some heat is lost through the lungs, although 90-95% is lost through the skin. Heat is transfered from the core to the skin by blood passing through peripheral blood vessels.

The rate of heat loss is determined by the extent to which the peripheral blood vessels dilate; fully dilated they will allow blood to travel 100 times faster than when constricted, thus losing body heat faster. Heat loss rates are also greatly increased by sweating, especially in dry environments..

The body controls heat loss by tightening the blood vessels under the skin, restricting the flow of blood – to the peripheral blood vessels (‘Vasoconstriction’). The development of peripheral vasoconstriction allows a cooler, outer ‘shell’ to form an insulating barrier that slows heat loss from the body’s core. Hands and feet have fewer large blood vessels, and when the flow of blood is restricted it is harder for the blood to keep flowing to these areas which quickly become cold.

Heat loss is due to one or more of the following – convection, conduction, evaporation or radiation. In comfortable environments, about 65% is lost through radiation, with most of the rest through evaporation. In cold environments, most heat lost is via convection and conduction.

Convection happens when air or water with a lower temperature than our body comes into contact with the skin and then moves away. An example of convection is blowing on hot food to cool it down. the amount of heat loss depends on the temperature difference between the body and the environment plus the speed with which air or water is moving.

Conduction is the transfer of heat to objects or substances the body comes into direct contact with. Metal and stones are good heat conductors, which is why they feel cold to touch, even at room temperature. Air conducts heat poorly, which is why still air is an excellent insulator. Water conductivity is 240 times greater than that of dry air.

Evaporation is responsible for 20-30% of heat loss in temperate conditions. About 2/3rds of evaporative heat loss occurs from the skin in thermo-neutral conditions. The remainder happens in the lungs and airways. In cold conditions, airway evaporative heat loss increases as the incoming air is humidified and warmed.

Even in hot conditions hands can become very cold if the person has been even mildly sweating a cool breeze can easily make the hands feel very cold.