The Xuchang Infrared Technology Research Institute Co., Ltd. is located on Yongxing East Road in the Xuchang New & High-Tech Development Zone (Zhongyuan Electrical Valley), Henan. It was formerly the Xuchang Infrared Technology Research Institute and is currently one of the influential infrared heating research institutions in China. Infrared microwave has a short wavelength.1m~1mmFrequent300MHZ~300GHZQuantum characteristics, and other distinct features. Infrared microwave technology is widely used in radar, navigation, multi-channel communication, remote sensing, and television, among others.20Century60Since the era began, people have gradually applied infrared microwave heating technology to physical processing processes such as paper, wood, and resin extrusion. In recent years, the introduction of microwave heating technology in the production process of infrared microwave molybdenum industry has not only effectively improved the reaction conversion rate and selectivity but also demonstrated many advantages such as energy saving and environmental protection. As one of the means to achieve green processes, it has gained extensive attention. Infrared microwave is a form of energy (not heat) but can be converted into heat in the medium. The reaction of materials to microwaves can be divided into four cases:1Microwave Penetration2Reflective Microwave3Microwave Absorption4Partial microwave absorption. In the areas where processing is feasible, the materials typically handled are dielectric materials, which generally absorb microwave energy to varying degrees. The dielectric materials couple with the microwave electromagnetic field, forming various power dissipation mechanisms to achieve energy conversion. There are numerous methods of energy conversion, such as ionic conduction, coupling...jChild rotation, interfacejChemical, hysteresis, piezoelectric, piezoelectric伸缩, nuclear magnetic resonance, ferromagnetic resonance, etc., including ionic conduction and couplingjSub-rotational movement is the primary principle of infrared microwave heating. Infrared microwave heating is a method that relies on an object absorbing infrared microwave energy to convert it into heat energy, causing the entire object to simultaneously increase in temperature, fundamentally different from other conventional heating methods. Traditional heating methods transfer heat from the outside to the material by conduction, convection, and radiation principles, with heat always passing from the surface to the interior of the material. This inevitably leads to a temperature gradient within the material, resulting in uneven heating and localized overheating. Unlike traditional heating methods, infrared microwave heating technology utilizes the internal oscillation of the heated object...jMolecular high-frequency reciprocating motion, resulting in“Internal Friction Heat”Heating the material to increase its temperature without any heat conduction process allows for simultaneous internal and external heating, with fast and even heating. It can achieve the heating goal with just a fraction or several tenths of the energy consumption of traditional heating methods. Theoretical analysis shows that the amount of heat generated in the infrared microwave field is greatly related to the type of material and its dielectric properties, indicating the selective heating characteristic of infrared and microwave radiation. Infrared microwave heating offers advantages such as fast heating, minimal heat loss, and ease of operation, which can shorten process time, increase productivity, reduce costs, and improve product quality. Compared to traditional heating methods, infrared microwave heating has the following characteristics: 1Even heat distribution, rapid heating Typical heating methods rely on heating the surrounding environment, initially warming the surface of an object through radiation or convection via hot air, and then conducting heat to the object's interior. This method is inefficient and takes a long time to heat. Infrared microwave heatingzA significant feature is that the infrared microwave is generated internally within the object being heated, with the heat source originating from within the object itself. This results in even heating without causing“Burnt outside, undercooked inside”Ripening phenomenon, conducive to enhancing product quality, and due to...“Simultaneous heating inside and out”Greatly reduces heating time, with high heating efficiency, benefiting in increasing product output. Infrared microwave heating has minimal inertia, enabling rapid control of temperature rise and fall, advantageous for automatic control in continuous production. 2Selective Heating The heat generated by infrared microwave heating and the loss of the heated objects are closely related. The dielectric constants of various media are0.0001To0.5Within a certain range, the ability of various objects to absorb infrared microwave varies greatly. Generally speaking, materials with a high dielectric constant are easily heated by microwaves, while those with a low dielectric constant are difficult to heat with microwaves. This is the selective heating characteristic of infrared and microwave for objects. 3Timely control, responsive Conventional heating methods, such as steam heating and electric heating, require time to reach a certain temperature, and the temperature drop also takes a considerable amount of time upon a fault or heating stoppage. In contrast, infrared microwave heating can quickly adjust the power to the desired level in a matter of seconds, heating to the appropriate temperature, facilitating automation and continuous production. 4High-intensity high-temperature The power of infrared microwaves absorbed per unit volume in the medium is proportional to the square of the electric field strength, allowing for high field strengths Below is the processed itemjRapidly reach the required processing temperature in a short time. The high field intensity can also produce sterilization without affecting the product quality. 5High-penetrating infrared microwave heating Far-infrared heating has a higher frequency than microwave heating, theoretically making it more efficient. However, there's also the concept of penetration ability. Although far-infrared heating has many advantages and is widely used, what does penetration ability mean in terms of its ability to penetrate objects? Penetration ability refers to the ability of electromagnetic waves to penetrate into the interior of a medium. As electromagnetic waves enter the medium from the surface and propagate within, their energy is continuously absorbed and converted into heat. Heat carrying capability decays exponentially with the distance from the surface of the medium. The penetration depth and wavelength of electromagnetic waves are of the same order of magnitude, allowing for even heating of both the surface and inside of objects, except for larger ones. In contrast, far infrared heating has a shorter wavelength and poor penetration, causing only a thin layer of the object to heat up under far infrared radiation. Heat to the interior mainly relies on conduction, which not only prolongs the heating time but also makes it prone to uneven heating. Compared to far infrared heating, infrared microwave heating has significantly stronger penetration capability. 6Clean and hygienic, colored General industrial heating equipment is large in size, occupies much space, and the surrounding environment is also quite hot, with poor working conditions for operators and high intensity. In contrast, infrared microwave heating takes up less space, avoids high environmental temperatures, and significantly improves the workers' working conditions. Currently,China has progressively adopted infrared microwave technology in industries such as leather, wood, color printing, food, paper, chemicals, ceramics, building materials, and rubber, achieving favorable economic benefits. Infrared microwave energy technology, as a new processing method, has become a trend in technological transformation and equipment upgrades across various sectors.jEarthquake impact. Particularly at this stage, the challenge for all operators is to address the issue of product structure and social demand, adapting to the increased requirements of product quality and variety for social development. One of the focal points is the insufficient technological innovation and lagging quality upgrade. The emergence of infrared microwave technology provides a favorable condition for enhancing product grade, keeping pace with technological progress, and creating high-value-added products. Xuchang Infrared Research Institute is currently a high-tech enterprise in Xuchang City.2009Established in the year, the Xuchang City Infrared Heating Engineering Technology Research CenterzHeart. For over three decades, we have consistently provided customer-centric services, reliable system designs, and stable infrared radiation heating technology solutions to ensure systemwThe US is running. Currently, our products are in operation at medium-sized enterprises, manned space research institutions, university laboratories, aircraft manufacturing plants, and other units. As we increase our domestic partners, we are also committed to expanding throughoutqMarket. Our equipment has been exported to countries such as India, Kuwait, and Pakistan. Xuchang Infrared Institute will continue to focus on the research and development of infrared radiation heating technology to enhance safety.qEfficiency, reliability, and system lifespan, providing for you,zPure infrared heating technology solutions.