- Product Definition
A carbon fiber heater is an advanced electric heating device that utilizes carbon fiber material as its core heating element. Its uniqueness lies in the fact that when an electric current passes through the carbon fiber heating body, carbon molecular clusters undergo efficient “Brownian motion” under the electric field, directly converting electrical energy into thermal energy, which is then primarily transmitted in the form of far-infrared radiation. - Core Heating Element
Its core technology lies in its heating element—carbon fiber filaments or carbon fiber felt. This non-metallic material possesses excellent characteristics such as stable resistance and low thermal inertia, ensuring rapid, uniform, and continuous heat generation after being energized, laying a physical foundation for efficient heating. - Energy Conversion Mechanism
In the energy conversion process, electrical energy is efficiently transformed into thermal energy, with 65% or more of this energy converted into far-infrared radiation that has therapeutic value. This high proportion of directional energy conversion is key to its high efficiency and energy savings. - Heat Transfer Method
The heat transfer method of carbon fiber heaters combines radiation and convection. The dominant far-infrared radiation can penetrate the air like sunlight, being directly absorbed by the human body and objects and converted into internal energy, providing a warm feeling from the inside out. At the same time, the heated objects also assist in raising the ambient temperature through slight thermal convection, achieving three-dimensional heating. - Rapid Heating Characteristic
Thanks to the excellent electro-thermal conversion efficiency of carbon fiber materials, this type of heater can achieve “instant-on” heating. Users can quickly feel the warmth brought by far-infrared radiation almost immediately after switching it on, providing a direct and efficient heating experience. - High Efficiency and Energy-Saving Performance
Its energy-saving advantages are significant: far-infrared radiation directly heats the target, reducing the energy loss associated with preheating the air in traditional convective heating. Compared to heaters using metal resistance wires, it has higher thermal efficiency and theoretically consumes less electricity for the same perceived warmth, helping to reduce energy costs over long-term use. - Light Wave Therapeutic Effect
In addition to heating, it also offers therapeutic health benefits. The far-infrared rays it emits (wavelength 5–15 μm) are similar to the vibration frequency of human cell molecules, making them easily absorbed and producing a resonance effect. This can penetrate deep into skin tissues, promote local blood circulation, and relieve muscle soreness, achieving a “light wave therapy”-like health effect. - Multiple Safety Guarantees
It excels in safety design: no open flame during operation, fundamentally eliminating ignition risks; its surface operating temperature is relatively low, reducing the possibility of accidental burns or ignition of contacted objects; at the same time, as a non-magnetic material, the electromagnetic radiation it generates is far lower than that of conventional household appliances, ensuring safer use. - Long Service Life
Carbon fiber itself has excellent chemical stability, is oxidation-resistant, corrosion-resistant, and experiences slow physical performance degradation. Under normal use and maintenance conditions, its service life can easily exceed 10 years, providing outstanding durability and cost-effectiveness. - Comfortable Light Sensation Experience
During operation, it emits only a soft dark red light or no light at all. The light is warm and non-glaring, making it particularly suitable for use in environments such as bedrooms and studies where soft lighting is needed, without disturbing users’ sleep at night.
