1. Extreme cold environment test
In extreme cold environments such as polar regions or high-altitude cold areas, the temperature is often below tens of degrees below zero. The first challenge faced by Energy Storage Thermostatic Cotton is whether it can effectively block the invasion of cold air from the outside and keep the inside warm. Tests have found that its special fiber structure and energy storage materials can slowly release stored heat in low-temperature environments, providing continuous warmth for the human body or protected objects. Compared with traditional thermal insulation materials, Energy Storage Thermostatic Cotton can better maintain a relatively stable temperature and reduce the discomfort caused by excessive heat loss when exposed to extreme cold conditions for a long time. For example, in field tests at the Antarctic research station, the core temperature of the body of staff wearing clothing containing Energy Storage Thermostatic Cotton can remain relatively stable during hours of outdoor work, effectively resisting the invasion of severe cold.
2. High temperature environment test
In high temperature environments such as hot deserts or hot industrial environments, the insulation and heat dissipation regulation capabilities of Energy Storage Thermostatic Cotton are tested. Although it is mainly known for its energy storage and warmth preservation, it also exhibits certain characteristics in high temperature environments. It can block the rapid transmission of external heat to a certain extent, and slow down the speed of heat conduction to the inside through its own structure and material characteristics. At the same time, after absorbing a certain amount of heat, its energy storage material does not heat up unlimitedly, but continues to heat up at a relatively slow rate after reaching a relatively high temperature threshold, thereby preventing the protected object from suffering a sudden high temperature shock. In the desert environment test, the internal temperature rise rate of the device wrapped with Energy Storage Thermostatic Cotton was significantly lower than that of the device not wrapped with this material, showing its insulation advantage in high temperature environments.
3. High humidity environment test
High humidity environments such as tropical rainforest areas or humid seaside environments have high requirements for the moisture resistance and warmth retention performance of Energy Storage Thermostatic Cotton under humid conditions. Due to its special fiber processing and coating process, Energy Storage Thermostatic Cotton can effectively prevent moisture from invading the internal fiber structure in a high humidity environment, avoiding the acceleration of heat conduction and the decrease of warmth retention performance due to humidity. In the test of the rainforest environment, after being exposed to high humidity for many consecutive days, Energy Storage Thermostatic Cotton products can still maintain a good warmth effect, there is no obvious moisture accumulation inside, and its temperature regulation function is not significantly affected, which shows that it has good applicability in high humidity extreme environment.
4. Strong wind environment test
In a strong wind environment, such as in the wind outlet of the mountains or the windy coastal areas, the wind will accelerate the loss of heat. The compact fiber structure and windproof surface design of Energy Storage Thermostatic Cotton play a role. It can effectively reduce the penetration of wind and reduce the rapid loss of heat caused by wind. Tests in strong wind environments show that the testers wearing Energy Storage Thermostatic Cotton clothing feel significantly less cold in strong winds than those wearing ordinary warm clothing. It can maintain a relatively stable temperature environment under the interference of strong winds, ensuring its applicability in such extreme environments.