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Far infrared heater Product List and Ranking from 76 Manufacturers, Suppliers and Companies | IPROS GMS

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

Far infrared heater Manufacturer, Suppliers and Company Rankings

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. トーコー Saitama//Industrial Machinery
  2. TPR商事 Tokyo//others
  3. AMK Saitama//Testing, Analysis and Measurement
  4. 4 双葉化学 Tokyo//Trading company/Wholesale
  5. 5 null/null

Far infrared heater Product ranking

Last Updated: Aggregation Period:Jun 03, 2026~Jun 30, 2026
This ranking is based on the number of page views on our site.

  1. Masking Film (Protective Film) 'DMF' 双葉化学
  2. Cubicle Oven Safe-type Hot Air Drying Furnace Painting Drying
  3. Mold/Metal Heating Device "Yone-kun" *A collection of heating case studies will be presented. 南海モルディ株式会社(旧:南海鋼材株式会社)
  4. 4 Halogen lamp heater capable of high-speed drying of paints, inks, adhesives, and more. トーコー
  5. 5 Near-infrared paint dryer "Handy Promo" トーコー

Far infrared heater Product List

181~210 item / All 211 items

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[Useful Information] What is annealing? Quality improvement through far-infrared heating.

Prevent damage and deformation of thermoplastic resins! A clear explanation of annealing treatment.

Annealing treatment is a method to prevent deformation of plastic products and resins. Plastics are broadly classified into "thermoplastic resins (thermoplastic plastics)" and "thermosetting resins (thermosetting plastics)." Annealing treatment is performed on thermoplastic resins. It is conducted to prevent damage and deformation of thermoplastic resins. This article will provide a clear explanation of annealing treatment. *For detailed content of the article, please refer to the related links. For more information, feel free to contact us.*

  • Technical and Reference Books
  • Far infrared heater

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Heater "Pia Heater"

Efficient heating with far infrared! Perfect for heating large spaces!

The "Pia Heater" emits far infrared rays in the range of 4 to 7 microns, allowing it to directly warm the human body and the floor without heating the air in between. Unlike warm air heating systems, it effectively warms the body and the floor directly through far infrared effects without wasting energy, making it very economical. Additionally, it is a unit type that integrates a series of devices such as a protective relay, burner, and exhaust fan, and since it is a ceiling-mounted type, it fully utilizes the floor space. The inside of the radiation tube is always maintained at negative pressure, so there is no worry about exhaust gases leaking outside. It is also designed with various safety devices in double and triple layers, ensuring safe use. 【Features】 ■ Energy-saving design ■ Clean and comfortable heating ■ Space-saving ■ Easy installation ■ Safety design *For more details, please refer to the catalog or feel free to contact us.

  • Machine elements
  • Far infrared heater

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Far Infrared Electric Heater "HEATSTRIP"

A design that matches the aesthetics of any building, delivering only a pleasant warmth. It can also be used as an outdoor heating device, making effective use of space.

The "HEATSTRIP(TM)" is an infrared heating device suitable for personal and commercial use in terraces, courtyards, balconies, open cafes, and more. With a simple and stylish design that hardly resembles a heating device, it can be installed in various locations, allowing for effective use of space with options for ceiling or wall mounting. It operates without emitting a red glow on the surface, delivering warmth without compromising the ambiance. The infrared technology quickly raises the temperature of objects internally, providing targeted spot heating exactly where you want it! It achieves excellent heating efficiency at a low cost, and requires minimal maintenance from customers. 【Features】 ■ Design that can be installed in any location ■ Comfortable warmth from infrared radiation ■ Resistant to rain and water ■ Innovative design that reduces running costs ■ No light, sound, or odor emitted *For more details, please refer to the PDF document or feel free to contact us.

  • Other heaters
  • Far infrared heater

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Metal mesh transparent heater <Vehicle window heater>

It is possible to play a significant role in EV vehicles and future-oriented vehicle design!

The "metal mesh transparent heater" is used for defrosting (defogging) vehicle windows and preventing fogging. By using a metal mesh transparent electrode, there is no need to use conventional defogger wires (thin heating wires), allowing for efficient heating without obstructing visibility. This ensures safe driving even in winter or humid environments, while also maintaining visual aesthetics. 【Reference Values (Partial)】 ■ Product Size: 1-105 inch ■ Product Base Material: PET, COP, CPA, CPI, etc. ■ Operating Voltage: 1-32V ■ Maximum Product Current: 8[A] ■ Copper Mesh Surface Resistance: 0.1 to 1[Ω/□] *For more details, please download the PDF or feel free to contact us.

  • Other electronic parts
  • Far infrared heater

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Technical Data: Comparison of Far Infrared Heating, Hot Air Heating, and Contact Heating

Compared to other heating methods, it can raise the temperature to the same level as the surface in a short time throughout the interior.

Far infrared heating can raise the temperature of the interior to the same level as the surface in a short time compared to other heating methods. Hot air heating and contact (conductive) heating are methods that heat the object by bringing heated air or the heat source itself into contact with it, and both have the same heat transfer method. Heat flow occurs due to the temperature difference between the hot air and the surface temperature of the object being heated, but only the conductive heat transfer from the surface to the interior occurs, resulting in relatively short time for the surface to reach the same temperature. Therefore, while the surface temperature rises, it takes a considerable amount of time for the temperature to increase throughout the interior. "Features" ○ Far infrared heating can heat the object with almost no temperature difference between the surface and the interior. ○ Compared to hot air heating, where heat gradually transfers from the surface to the interior, it can heat in a shorter time. ○ In the case of paint drying, phenomena such as foaming or cracking are less likely to occur. ○ In plastic processing, uniform heating prevents the occurrence of defective products. ○ For food and herbs, drying can be completed before the active ingredients, aroma, and flavor deteriorate. ○ Temperature distribution can be easily made uniform.

  • Company:AMK
  • Price:Other
  • Other heaters
  • Far infrared heater

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Technical Data: Types and Shapes of Far Infrared Heaters

There are continuous conveyor furnaces, takt operation furnaces, fixed furnaces, etc., even for in-furnace heating.

Far infrared heaters should have their shapes selected based on the heating method and the shape of the workpiece to achieve more efficient heating. There are production methods such as labeling bottles and using heaters in an open setting or heating within a furnace. Even in furnace heating, there are continuous conveyor furnaces, takt operation furnaces, and fixed furnaces. 【Features】 [Far Infrared Straight Heater] ○ A low-cost heater primarily used in continuous operation furnaces ○ Installed together with a reflector ○ Length, voltage, and wattage can be freely manufactured, and orders can be placed from one unit ○ Can be processed into various shapes such as U-shaped and M-shaped spiral types ○ The standard capacity is below 4W/cm² For more details, please contact us or download the catalog.

  • Company:AMK
  • Price:Other
  • Other heaters
  • Far infrared heater

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Technical Information: Precautions for Using Infrared Heaters

If you don't leave one side free during installation, the heater will deform into a bow shape.

Far infrared rays have linearity similar to light, making it difficult to heat the shaded areas of the object being heated. Typically, temperature increases through thermal conduction, but if that is not feasible, heating will need to be done while rotating the object. Far infrared straight heaters expand due to heat. For example, with a tube length of 1000 mm, at a surface temperature of 500°C, it expands by 7 to 8 mm, and at 600°C, it expands by 10 to 11 mm. Please maintain a distance from the furnace wall accordingly. The installation must allow one side to be free; otherwise, the heater will deform into a bow shape. The reflector should be made of stainless steel. While aluminum has better reflectivity, it is weak against heat and can oxidize. 【Notes】 ○ When closely arranging far infrared panel-type clean heaters, maintain a gap of at least 2 mm between cases. → Close contact can cause distortion due to thermal expansion. ○ When using three-phase power, design, arrange, and wire with balance in mind. ○ When using a leakage circuit breaker, ensure it has a leakage current of 100 mA or more. ○ Far infrared heating devices should not have a sealed structure; always provide an exhaust outlet. ○ Always ensure proper grounding. For more details, please contact us or download the catalog.

  • Company:AMK
  • Price:Other
  • Other heaters
  • Far infrared heater

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Technical Data: Heat Calculation

Multiply the heat quantity calculated according to the usual calorimetry procedure by the far-infrared efficiency ρ to obtain the total heat quantity.

The calculation of heat quantity for far infrared heating is difficult to determine simply, but it can generally be calculated using the following formulas. Ideally, it should be calculated based on the formula for radiative heat transfer, but it must take into account factors such as the emissivity (absorption rate) of the heater and non-heated objects, the heat receiving area, and the angle of heat reception, making it quite challenging in practice. Therefore, the total heat quantity is obtained by multiplying the heat quantity calculated according to the usual heat calculation procedure by the far infrared efficiency ρ. The value of ρ can be determined from empirical data in the range of 0.6 to 0.9. 【Formulas】 ○1. Equipment Power (P)  P = P0 × 1.1 to 1.2 (equipment margin) (KW)  P0 = Q / 860 (KW)  P: Equipment power, P0: Power, Q: Total heat quantity ○2. Calculation of Total Heat Quantity (Q)  Q = (Q1 + Q2 + Q3 + Q4 + Q5 + Q6) ρ (Kcal/h)  Q: Total heat quantity (Kcal/h), Q1: Sensible heat quantity of the heated object, Q2: Latent heat of moisture evaporation  Q3: Heat quantity taken away by the drive part, Q4: Heat quantity flowing out of openings, Q5: Exhaust heat quantity  Q6: Heat loss from furnace walls, ρ: Far infrared efficiency For more details, please contact us or download the catalog.

  • Company:AMK
  • Price:Other
  • Other heaters
  • Far infrared heater

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Heating method (electric) and far infrared heating - Trivia No. 3

Among infrared heating, far infrared heating is widely used as an efficient heat source.

The heat sources for far infrared heating include electricity, gas, and oil. AMK Co., Ltd. specializes in far infrared heaters and equipment that use electricity as a heat source. Electricity is easy to control and allows for high-precision and high-efficiency heat treatment. The methods of electric heating used in production processes that convert electrical energy into thermal energy include resistance heating, induction heating, dielectric heating, microwave heating, heat pumps, and infrared heating. Among infrared heating, far infrared heating is widely used as an efficient heat source. 【Trivia: Heating Methods (Electric) and Far Infrared Heating】 ○ Resistance Heating / Induction Heating / Dielectric Heating / Microwave Heating / Heat Pumps ○ Far Infrared Heating → A method that uses heaters that emit wavelengths of 3μ or more for efficient heating → Organic materials and polymers (paints, plastics, food, etc.) absorb electromagnetic waves of 3μ or more well and generate heat. For more details, please contact us or download the catalog.

  • Company:AMK
  • Price:Other
  • Other heaters
  • Ceramic Heater
  • Heating device
  • Far infrared heater

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Effects of Far Infrared Heating - Trivia No. 5

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.

  • Company:AMK
  • Price:Other
  • Other heaters
  • Ceramic Heater
  • Heating device
  • Far infrared heater

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About Far Infrared: Drying of Small Parts

Introducing a case where various small parts were mixed and fed into a far-infrared drying furnace!

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying equipment. Previously, single parts were flowed into the far-infrared drying furnace, but with the shift to small-batch production of various small parts mixed together, we received reports of undercooked and overcooked parts. Upon investigation, it was found that the mixture consisted of parts with diameters of 50 to 10 mm and thicknesses of 10 to 1 mm, which caused differences in heating rates due to variations in material properties (specific heat differences), weight differences, and differences in the area of the light-receiving surface. As a countermeasure, we need to group parts with the same material or group them based on thickness and light-receiving area, and conduct heating tests to adjust either the transport speed or heating temperature. As a result of these measures, while the workload increased, the advantages of far-infrared heating remained superior to other heating methods. *For more details, please refer to the catalog or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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[Far Infrared Discussion] Effects on Human Skin

Introducing the effects of near-infrared and far-infrared on human skin!

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying equipment. When infrared radiation is emitted to the skin, the reflectivity is high for visible light (up to 0.78μ) and near-infrared (0.78 to 2.0μ), while the transmittance shows that near-infrared penetrates and is absorbed about 20% up to 1mm deep. In other words, near-infrared is characterized by high reflectivity and transmittance with respect to human skin. When the wavelength exceeds 2μ, the reflectivity decreases and the absorption rate increases. Long-wavelength infrared has a low reflectivity, so most is absorbed at a very shallow depth in the skin. Since the temperature sensing part of the skin is often located within 0.3mm, far-infrared is mostly absorbed near the skin's surface, making it feel warm. When the temperature sensing part of the skin feels warm from near-infrared, the skin may be heated to the point of stinging. *For more details, please refer to the catalog or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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About Far Infrared: Regarding Moisture Drying

Effective far-infrared heating for moisture drying due to good absorption of water!

AMK Co., Ltd. is a company that handles industrial far-infrared heaters and heating and drying equipment. Far-infrared heating is said to be the excitation of lattice vibrations and molecular vibrations of objects due to the absorption of electromagnetic waves. For drying moisture, radiation wavelengths of 3, 6, and 12 or more are necessary, where vibrations are excited, energy is absorbed, and heat is generated and transmitted. In other words, this forms the theoretical basis for the effectiveness of far-infrared heating. Water actually exists as clusters and has absorption bands when viewed as a polymer substance. Because of its good absorption properties, far-infrared heating is effective for drying moisture. *For more details, please refer to the catalog or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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About Far Infrared: What is Mid-Infrared?

Introduction to the classification of infrared heaters in Japan and Europe!

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying devices. In Japan, organic materials and polymer substances have most of their infrared absorption in the long wavelength range of over 3μ, which is why heaters that emit wavelengths of 355μ or more are referred to as far-infrared heaters. The surface temperature of typical far-infrared heaters in Japan is around 600°C, and when compared to a black body, the peak wavelength is 3.3μ, with the radiation amount over 3μ accounting for more than 80% of the total. On the other hand, in Europe, when classifying existing infrared heaters, the peak wavelength of the radiation energy of a theoretical black body is referenced based on the temperature of the heating element. For a heater at 2000°C, the peak wavelength is 1.27μ, with radiation energy below 2μ being 57% and below 5.5μ being 90%. The peak wavelength of a heater at 1000°C is 2.28μ, with radiation energy between 2 and 4μ being 48%, which is why the former (below 2μ) is called a near-infrared heater and the latter (2 to 4μ) is referred to as a mid-infrared heater. *For more details, please refer to the catalog or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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Talk about far infrared: emissivity and black body

Introduction to emissivity expressed as a ratio of blackbody radiation!

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying equipment. Emissivity is expressed as the ratio of radiation to that of a black body. The radiation intensity for each wavelength is measured at the same temperature as the object being measured, and a graph is created with frequency or wavelength on the horizontal axis and a value of 1 for the black body on the vertical axis, ranging from 0 to 1. This will represent the emissivity for each wavelength. Black body radiation refers to the radiation emitted from a small hole opened in the cavity of a black body furnace equipped with a temperature control function. A black body is an object that completely absorbs all electromagnetic waves, and in an insulated sealed space, electromagnetic waves that enter through a small hole in the cavity wall cannot escape, making it a perfect absorber with an emissivity of 1. *For more details, please refer to the catalog or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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Discussion on Far Infrared: Annealing Treatment of Plastic Products

An explanation of the effects of far-infrared heating through the annealing treatment of plastic products.

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying equipment. Plastic molded products such as toner cases, PC parts, and headlamp housings are produced by pouring heated resin into molds and removing them after cooling to a certain extent. During this process, temperature differences occur in the plastic due to the position inside the mold, leading to distortion. This causes various physical property declines, such as dimensional changes, crystallization, and deterioration of weather resistance. Reheating to eliminate distortion is referred to as annealing treatment. This process requires precise temperature distribution and accurate temperature control, making it a field where far-infrared heating excels. Traditionally, processing was done over time in fixed furnaces with hot air, but with far-infrared heating, physical property changes can be eliminated in a short time. *For more details, please refer to the PDF document or feel free to contact us.*

  • Company:AMK
  • Price:Other
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  • Heating device
  • Drying Equipment
  • Far infrared heater

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[Discussion on Far Infrared] The relationship between voltage, watts, and current.

Introducing the relationship between voltage, watts, and current!

AMK Co., Ltd. is a company that handles industrial far-infrared heaters and heating and drying equipment. When the voltage doubles, the wattage quadruples. Using a 1KW heater rated for 100V at 200V will result in a 4KW output, which is dangerous. Conversely, using a 1KW heater rated for 200V at 100V will only produce 0.25KW, leading to insufficient temperature. In the case of a 200V power supply, for cost reasons, we do not use single-phase but rather three-phase. In a delta connection, the heater can be used as is, but if a star connection is made, the heater is designed for 115V while keeping the wattage the same. In both cases, the operating current will be 1/√3 of that in single-phase, making it economical. *For more details, please refer to the PDF materials or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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Discussion on far infrared: Peak wavelength of the heater that matches the absorption band of the heated object.

Explanation of key points when using far infrared heaters.

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying equipment. The maximum wavelength of radiation energy from a black body can be derived from λT = 2898 μm·K, but in reality, the integral radiation energy is 25% on the short wavelength side and 75% on the long wavelength side, maintaining the same ratio at any peak wavelength. Therefore, when using far-infrared heaters, it is more practical to focus on finding the temperature that can efficiently heat the object rather than emphasizing the peak wavelength. Focusing too much on the peak wavelength may lead to a processing temperature that is far from the required temperature, potentially concluding that far-infrared heating is ineffective. *For more details, please refer to the PDF document or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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[Discussion on Far Infrared] Regarding JIS related to far infrared rays.

Introducing JIS related to far infrared rays! Far infrared heaters are subject to JIS as heaters.

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying equipment. Regarding JIS related to far-infrared radiation, there are three points as follows: ■ JIS Z 8117 Far-Infrared Terminology Scope: This standard specifies the main terms related to far-infrared radiation and their definitions. ■ JIS R 1801 Method for Measuring Spectral Emissivity of Ceramics Used as Radiating Elements in Far-Infrared Heaters by FTIR Scope: This standard specifies a method for measuring the spectral emissivity of the surface of ceramics used as radiating elements in far-infrared heaters, using FTIR (Fourier Transform Infrared Spectroscopy), in the wavelength range of approximately 2.5 μm to 25 μm. ■ JIS R 1803 Method for Measuring Spectral Radiant Energy in the Far-Infrared Region of Far-Infrared Heaters Scope: This standard specifies a method for determining the radiant energy of far-infrared heaters in arbitrary wavelength ranges based on the measurement results of the heater surface temperature distribution using thermography. *For more details, please refer to the PDF document or feel free to contact us.*

  • Company:AMK
  • Price:Other
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  • Heating device
  • Drying Equipment
  • Far infrared heater

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Discussion on Far Infrared: Aging Deterioration of Heating Furnaces

Introducing the aging deterioration of heating furnaces, along with reasons and countermeasures!

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying equipment. The heating furnace experiences the greatest drop in performance due to dirt on the furnace walls, reflector, and heater surface during the first year of use. After that period, it stabilizes, and the efficiency does not drop significantly. In particular, when the painting line is automated from the painting booth to the conveyor, paint mist enters the furnace and contaminates the furnace walls, etc. Therefore, it is better to consider the furnace's efficiency as 80-90% instead of 100%. If several years pass and the efficiency drops further, it will be necessary to inspect for other causes, such as heater deterioration or sensor abnormalities. *For more details, please refer to the PDF document or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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[The Story of Far Infrared] The History of Far Infrared Rays

Introducing the history of far infrared that began with paint baking!

It is said that the first industrial use of infrared heating was by the Ford Motor Company in the United States. [History] ■1938: Painting curing using infrared bulbs (near-infrared) ■1960s: Practical use of quartz tube heaters (mid-infrared), still in use today ■1970s: Started to be used in various industries ■1980s: Active development of heating technology, with many heating source manufacturers emerging After that, it was widely used in painting, automotive, and home appliance industries, and further expanded to heating and drying rubber products, plastics, and more. It also began to be used for drying after cleaning glass substrates, and recently, many products are being produced in clean rooms, where far-infrared heating is actively utilized as it is optimal for clean heating. *For more details, please refer to the PDF document or feel free to contact us.

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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[Discussion on Far Infrared] Differences between Near Infrared and Far Infrared

Introducing the differences between near-infrared and far-infrared!

In Japan, wavelengths of 3μ or more are referred to as far infrared, while those below are called near infrared. We have devised a far infrared heating system suitable for Japan that can be processed with compact equipment, which is expected to yield efficient and high-quality results. Furthermore, continuous production is now possible, leading to labor savings. The radiation energy of near infrared heaters is constant, and the wavelength distribution follows Planck's radiation law. The heating element is a metal filament sealed within a glass tube filled with inert gas. While the temperature of the heating element cannot be measured directly, the maximum radiation wavelength from a 2000°C filament is approximately 1.3μ. Thus, heaters with a maximum wavelength of less than 2 microns are referred to as near infrared heaters, and since the maximum radiation wavelength from a 1000°C filament is about 2.3μ, heaters with a maximum wavelength of 2 to 4μ are classified as mid-infrared. *For more details, please refer to the PDF document or feel free to contact us.*

  • Company:AMK
  • Price:Other
  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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[Discussion on Far Infrared] About the terminology of far infrared rays

Introduction to commonly seen terms in literature on far infrared rays!

AMK Co., Ltd. is a company that handles industrial far-infrared heaters, heating devices, and drying equipment. Here are some commonly seen terms in the literature on far-infrared radiation. 【Terms】 ■Radiant Energy J - Energy is evaluated based on its magnitude per unit time, represented by the symbol Qe. ■Radiant Flux W - Since far-infrared radiation is electromagnetic waves, it refers to the radiant energy within a unit time. *Practically, it is often quantified by the following radiant emittance or radiant intensity. ■Radiant Emittance W/Cm² - The value obtained by dividing the radiant flux emitted from a small surface by its area (the power density of electromagnetic waves), represented by the symbol Me. ■Radiant Intensity W/st - The value obtained by dividing the radiant flux emitted from a point source in a certain direction into a small solid angle by that solid angle (watts per steradian), represented by the symbol Ie. ■Radiant Luminance W/st·m² - The value obtained by dividing the radiant intensity from a small surface of the radiation source in a certain direction by the area of the orthogonal projection in that direction, represented by the symbol Le. ■Radiant Irradiance W/m² - The value obtained by dividing the radiant flux incident on a small surface by the area of that surface, represented by the symbol Ee. *Currently, there are no devices that can measure it as simply as light. *For more details, please refer to the PDF materials or feel free to contact us.

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  • Other heaters
  • Heating device
  • Drying Equipment
  • Far infrared heater

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Printing heater

We offer customized products by freely combining substrates and heating elements, such as transparent heaters and 3D transfer heaters!

At Narumi Seito Co., Ltd., we utilize screen printing technology and thin film formation technology to provide customized products by freely combining substrates and heating elements, such as transparent heaters and 3D transfer heaters. Our substrates include "ultra-heat-resistant crystallized glass," various "ceramics," "quartz glass, various types of glass," and "PET, (PP)." We also offer "thick film type" and "thin film type" heating elements. Please feel free to contact us when you need assistance. [Substrates] ■ Ultra-heat-resistant crystallized glass ■ Various ceramics ■ Quartz glass, various types of glass ■ PET, (PP) *For more details, please refer to the PDF document or feel free to contact us.

  • Glass
  • Other air conditioning equipment
  • Far infrared heater

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Useful Information: Efficient Curing of Epoxy Resin with Far Infrared Rays

What is epoxy resin? An explanation of an efficient heating method using far infrared heaters.

Epoxy resin is mainly used as an adhesive for industrial products. This article introduces the types of epoxy resin and explains an efficient heating method using far-infrared heaters. Epoxy resin is a general term for "compounds that contain epoxy within their molecules," which was developed in Switzerland in the 1930s for dental materials. It is possible to change the properties of epoxy resin by adding additives to the hardener. *For more detailed information, you can view it through the related links. Please feel free to contact us for more details.

  • Technical and Reference Books
  • Far infrared heater

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Panel-type far infrared heater "Infrared CH type" <Applicable Uses>

Ideal for drying processes of electronic devices such as semiconductors and LCD glass!

We will introduce the applicable uses of the "Infrared CH Type." In the electronics industry, it is used for heating and drying after printing on LCD glass, as well as for drying after cleaning, and for heating and drying in the manufacturing process of solar cells. For products in the information industry, it is suitable for heating electronic devices such as semiconductors and magnetic tapes. *For more details, please refer to the related links or feel free to contact us.

  • Heating device
  • Far infrared heater

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Metal mesh transparent heater <Smart window for buildings>

Heating while maintaining transparency! It is possible to enhance energy efficiency without obstructing natural light.

The "metal mesh transparent heater" is also useful for smart windows in buildings. These windows have electrically adjustable transparency and insulation properties, and are used to maintain a comfortable indoor environment. By incorporating a transparent heater, it prevents the glass from fogging, reduces heat loss through windows in cold regions, and efficiently warms the interior. 【Reference values (partial)】 ■ Product size: 1-105 inch ■ Product base materials: PET, COP, CPA, CPI, etc. ■ Operating voltage: 1-32V ■ Maximum product current: 8[A] ■ Copper mesh surface resistance: 0.1-1[Ω/□] *For more details, please download the PDF or feel free to contact us.

  • Other electronic parts
  • Far infrared heater

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Metal mesh transparent heater <Aircraft window heating system>

Not only does it make it easier for pilots and passengers to see the outside scenery, but it also enhances the safety of the cabin!

The "metal mesh transparent heater" is also used in aircraft windows. As the flight altitude increases, the external temperature drops, posing a risk of window freezing. This heater is effective as a system for heating the windows to ensure visibility during flight. This not only makes it easier for pilots and passengers to see the outside scenery but also enhances safety inside the cabin. 【Reference Values (Partial)】 ■ Product Size: 1-105 inch ■ Product Base Materials: PET, COP, CPA, CPI, etc. ■ Operating Voltage: 1-32V ■ Maximum Product Current: 8[A] ■ Copper Mesh Surface Resistance: 0.1 to 1[Ω/□] *For more details, please download the PDF or feel free to contact us.

  • Other electronic parts
  • Far infrared heater

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Metal Mesh Transparent Heater <Electronic Devices and Displays>

Prevention of fogging on camera and smartphone lenses, as well as prevention of condensation on outdoor displays!

The "metal mesh transparent heater" enhances convenience in electronic devices and displays. For example, it can be used to prevent fogging on camera and smartphone lenses, as well as to prevent condensation on outdoor displays. By using the heater, it can provide the necessary heating function while maintaining the visual quality of the device, contributing to improved weather resistance. 【Reference Values (Partial)】 ■ Product Size: 1-105 inch ■ Product Base Material: PET, COP, CPA, CPI, etc. ■ Operating Voltage: 1-32V ■ Maximum Product Current: 8[A] ■ Copper Mesh Surface Resistance: 0.1-1[Ω/□] *For more details, please download the PDF or feel free to contact us.

  • Other electronic parts
  • Far infrared heater

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Metal Mesh Transparent Heater <Industrial Use>

While adding a condensation prevention feature, it enables efficient heating with reduced power consumption!

The "Metal Mesh Transparent Heater" is suitable for industrial applications that require heating while maintaining visual transparency, such as refrigerator doors, showcases, and transparent doors of display refrigerators. By using this heater, it is possible to add condensation prevention features while keeping power consumption low, enabling efficient heating. This allows products to be easily visible and kept clean, thereby increasing their value in commercial environments. 【Reference Values (Partial)】 ■ Product Size: 1-105 inch ■ Product Base Material: PET, COP, CPA, CPI, etc. ■ Operating Voltage: 1-32V ■ Maximum Product Current: 8[A] ■ Copper Mesh Surface Resistance: 0.1-1[Ω/□] *For more details, please download the PDF or feel free to contact us.

  • Other electronic parts
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