Highly efficient and energy-saving heating performance High electrothermal conversion efficiency: Carbon fiber materials have excellent electrothermal conversion efficiency and can convert most of the electrical energy into thermal energy. This 150W U-shaped carbon fiber infrared heating lamp, which works at 220V voltage, can effectively utilize electrical energy and reduce energy waste. Compared with traditional heating methods, such as some inefficient resistance wire heating devices, it performs better in energy saving and can reduce energy costs with long-term use. Fast heating characteristics: Carbon fiber has a high thermal conductivity, which allows the heating lamp to heat up quickly after power is turned on. In scenarios where heat needs to be provided quickly, such as in small local heating or heating processes that are sensitive to temperature changes, this rapid heating feature can meet heating needs in a timely manner. For example, in a cold room, placing it under an office desk for foot heating can quickly make people feel warm. Uniform heating effect: The infrared radiation emitted by carbon fiber is distributed evenly. The U-shaped design increases the uniformity of heating. It can surround the heated object and transfer heat to the surface of the object evenly from multiple directions to avoid local overheating. In scenarios where temperature uniformity is required to be high, such as heating of small precision electronic components, heating of food in a small area, etc., this uniform heating characteristic can ensure that the quality and performance of the heated object are not affected. Good penetrating heating: The infrared rays emitted by the carbon fiber infrared heating lamp can penetrate the surface of the object and heat the object deeply. For example, in some scenarios where the inside of the object needs to be heated, such as heating and softening small plastic products with a certain thickness, the infrared rays can penetrate deep into the inside, so that the object is heated evenly from the inside to the outside, effectively improving the heating quality. Material and structural advantagesHigh-quality carbon fiber material: Carbon fiber itself has the characteristics of high strength, high modulus and high temperature resistance. In a long-term high-temperature working environment, this material is not easy to deform, age or damage, ensuring the service life of the heating lamp. This means reducing the trouble and cost of frequent equipment replacement and improving the reliability of the equipment. This is an important advantage for equipment or places that require heating functions for a long time.U-shaped design advantages: The U-shaped shape enables it to better fit objects of certain shapes for heating and precisely heat specific areas. For example, in scenes such as local heating of automotive parts and detail repair of small crafts, heat can be precisely concentrated on the required parts, reducing energy waste and better meeting specific heating process requirements. At the same time, this shape also increases the flexibility of the heating lamp in space, making it easy to install and use.

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