Efficient heating (time reduction, continuous operation, mass production, equipment miniaturization)
Organic substances, polymers, moisture, and ceramics have absorbers at locations of 3μ or more, so when far infrared rays are applied, molecular vibrations become active, leading to a rapid increase in temperature. This allows for a reduction in heating time and the possibility of downsizing heating furnaces. This is one of the most significant effects of far infrared rays. The connections of atomic groups that make up substances are constantly undergoing micro-vibrations, and each substance has its own characteristic vibration. The wavelength of far infrared rays overlaps with the natural frequencies of most substances. Therefore, when far infrared rays are applied to many substances, the vibrations of the constituent atomic groups and lattice vibrations are excited, converting electromagnetic wave energy into vibrational energy within the substance, resulting in thermal vibrations and heat generation. This is the mechanism of far infrared absorption. 【Trivia: Effects of Far Infrared Heating】 - Efficient heating (time reduction, continuous operation, mass production, equipment downsizing) - Uniform heating throughout the interior of the substance (quality improvement, yield enhancement) - Uniform temperature distribution (quality improvement, yield enhancement) - Easy temperature control of heating furnaces (quality improvement, automation, labor saving) - Effect remains unchanged even in a vacuum / clean heating possible / environmentally friendly heater For more details, please contact us or download the catalog.
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【Trivia: Effects of Far Infrared Heating】 ○ Efficient heating (time reduction, continuous operation, mass production, equipment miniaturization) ○ Uniform heating throughout the material (quality improvement, yield enhancement) → Due to significant absorption at the surface, the heat flow to the interior is also substantial, allowing for heating with minimal temperature difference between the surface and the interior. → In industrial products, quality improves. → In paint drying, rapid heating does not cause foaming or cracking. → In food, it allows for quick heating without compromising flavor or medicinal properties. ○ Uniform temperature distribution (quality improvement, yield enhancement) → In electric heaters, achieving uniform temperature distribution in the heated object is easily attainable. → In continuous conveyor-type far infrared furnaces, uniform temperature distribution can be achieved across the width, while fixed far infrared furnaces can achieve uniform temperature distribution across the entire surface. ○ Easy temperature control in heating furnaces (quality improvement, automation, labor saving) ○ Effectiveness remains unchanged even in a vacuum. ○ Clean heating is possible. ○ Environmentally friendly heater. ● For more details, please contact us or download the catalog.
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We are a specialized manufacturer of far infrared heaters and heating devices. We offer a wide variety of heaters suitable for industrial heating. For clean heating and tact operation or fixed furnaces, we have panel heaters; for continuous heating via conveyors, we provide straight heaters; for precise temperature control or heating small components, we offer ceramic heaters; and for insulation or low-temperature heating, we have space heaters. Far infrared heaters are useful for heating, curing, and drying.
