Xuchang InfraredSemiconductor Basic MaterialsLaboratory Heating Equipment

Xuchang Infrared Technology Research Institute Co., Ltd. is located on Yongxing East Road, New & High-tech Development Zone of Xuchang, Henan (Zhongyuan Electric Valley), the predecessor of Xuchang Infrared Technology Research Institute. It is one of the influential infrared heating research institutions in China. InfraredSemiconductor Basic MaterialsThe experimental heating device utilizes infrared radiation to heat objects. After the objects absorb the infrared radiation, they convert the radiant energy into heat energy, thereby becoming heated. Infrared is a type of electromagnetic wave. In the solar spectrum, it is located beyond the red end of visible light, representing an invisible form of radiant energy. Within the electromagnetic spectrum, the wavelength range of infrared radiation is0.75~1000Between micrometers, the frequency range is3×10~4×10In industrial applications, infrared spectroscopy is often divided into several bands.:0.75~3.0Micrometers for the near-infrared region;3.0~6.0Micrometers in the mid-infrared region;6.0~15.0Micrometers for the far infrared region;15.0~1000Micrometers represent the far infrared region. Different objects have varying abilities to absorb infrared radiation, and even the same object may have different absorption capacities for infrared radiation of different wavelengths. If usedXCapture a photo of a crystal defect with a light machine, typically requires7-15Daylight exposure time, whereas utilizing infrared radiation sources requires only a few seconds to a few minutes, improving work efficiency by tens of thousands of times. The characteristic of high brightness determines that infrared radiation sources can be used for many tasks that conventional light sources cannot perform. Therefore, infrared applicationsSemiconductor Basic MaterialsHeating requires selecting the appropriate infrared radiation source based on the type of object being heated, ensuring the radiant energy is concentrated within the absorption wavelength range of the heated object for optimal heating results. Infrared radiationSemiconductor Base MaterialsThe infrared heating of experimental heating devices is actually a special form of resistive heating, using materials such as tungsten, iron-nickel, or nickel-chromium alloys as radiators to create radiation sources. Once powered, they emit thermal radiation due to their resistive heating. Common electric infrared heating radiators include lamp-type.(Reflective)Pipe(Quartz tube)With board pattern(Flat-style)Three types. The lamp type is an infrared bulb, with a tungsten filament as the radiant body.,Tungsten wire sealed within a glass shell filled with inert gas,Like a standard light bulb. The radiator heats up when powered.(Temperature lower than standard light bulbs),Thus, emitting a large amount of wavelengths1.2Approximately micrometer-sized infrared radiation. If a reflective layer is applied to the inner wall of a glass shell, the infrared radiation can be concentrated and emitted in one direction, hence the lamp-type infrared radiation source is also known as a reflective infrared radiation emitter. The tube-type infrared radiation source is made of quartz glass, with a tungsten filament in the center, thus also referred to as a quartz tube infrared radiation emitter. The wavelengths of the infrared radiation emitted by the lamp and tube types are0.7~3Within the micrometer range, the working temperature is lower, generally used for heating, baking, and drying in light and textile industries. The radiation surface of the plate-type infrared radiation source is a plane, composed of flat resistive plates, with materials with a high reflectivity coated on the front of the plates.,The reverse side is coated with a material of low reflectivity coefficient.,So most of the heat energy is radiated outwards. The operating temperature of the board can reach1450Above 500°C, suitable for annealing welds in steel materials, large diameter pipes, and containers. Due to the strong penetration ability of infrared rays, they are easily absorbed by objects and, once absorbed, immediately converted into heat energy.;Infrared heating has minimal energy loss before and after heating, easy temperature control, and high heating quality, thus, its application development is rapid. The Xuchang Infrared Institute will continue to maintain its research and development of infrared radiation heating technology to enhance safety.qEfficiency, reliability, and system lifespan, providing for you,zPure infrared heating technology solutions.