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Medium Wave Infrared Emitter Twin Tube Quartz IR Lamp 5900W 3950mm For MACOTEC Glass Cutting Machine
Medium Wave Infrared Emitter Twin Tube Quartz IR Lamp 5900W 3950mm For MACOTEC Glass Cutting Machine
Medium Wave Infrared Emitter Twin Tube Quartz IR Lamp 5900W 3950mm For MACOTEC Glass Cutting Machine
Medium Wave Infrared Emitter Twin Tube Quartz IR Lamp 5900W 3950mm For MACOTEC Glass Cutting Machine
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240V 2000W 355MM Ceramic White Reflector Quartz Infrared Emitter Heat Lamp
240V 2000W 355MM Ceramic White Reflector Quartz Infrared Emitter Heat Lamp
240V 2000W 355MM Ceramic White Reflector Quartz Infrared Emitter Heat Lamp
240V 2000W 355MM Ceramic Reflector Quartz Heat Infrared Emitter Lamp 1. Principle of Quartz Infrared emitter lamps Quartz infrared emitter lamps utilize the high temperature generated by current passing through the filament to produce intense infrared radiation. These radiations have strong penetrating power, allowing them to directly heat the molecules inside the material. Infrared rays heat objects without direct contact, making the drying process faster. Compared to traditional heating methods (such as convection heating), infrared radiation directly transfers heat to both the surface and interior of the material, reducing energy loss and heat transfer time.         2. Advantages of Quartz Infrared emitter lamps Fast Heating and Energy Efficiency: Since infrared radiation directly heats the material, the transfer time is significantly shortened, reducing energy loss during the heating process. Additionally, infrared emitter lamps quickly reach the required temperature, eliminating the need for a preheating phase, thus improving production efficiency.   Uniform Heating: Quartz infrared emitter lamps provide even heat distribution across the entire conveyor width, ensuring that all products are exposed to the same level of heat, guaranteeing consistent heating for each product. This is crucial for improving drying quality and reducing product inconsistency. The flexible arrangement and design of the lamps allow operators to precisely control heat intensity and distribution, enabling fine-tuning of the drying process based on specific product needs.   Space Savings and Process Optimization: The compact design of quartz infrared emitter lamps allows for easy integration into various conveyor dryers, resulting in a more compact overall equipment design, which is easier to arrange and operate. Precise control of temperature and heat distribution also provides operators with flexible adjustment options to meet the needs of different products.    
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400V 8900W 1620mm IR Radiator Lamp Replacement KBA RAPIDA 145/164 L0850535 Twin Tube IR Emitter
400V 8900W 1620mm IR Radiator Lamp Replacement KBA RAPIDA 145/164 L0850535 Twin Tube IR Emitter
400V 8900W 1620mm IR Radiator Lamp Replacement KBA RAPIDA 145/164 L0850535 Twin Tube IR Emitter
400V 8900W 1620mm IR Radiator Lamp Replacement KBA RAPIDA 145/164 L0850535 Twin Tube IR Emitter
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Leather Textiles Drying IR Lamps
DIY Quartz Infrared Heater for annealing of injection molded parts
DIY Quartz Infrared Heater for annealing of injection molded parts
During the cooling process, injection molded parts may generate internal stress due to uneven shrinkage, resulting in deformation or cracking. Local annealing eliminates stress and improves dimensional stability by heating specific areas. Traditional annealing uses an oven for overall heating, but it is inefficient and may affect the performance of other parts of the part.   Parameter Infrared Heating Traditional Methods (Oven/Mechanical) Speed Seconds (1–30 s) Minutes to hours Energy Efficiency Low (directional heating) High (bulk heating/mechanical energy) Precision Millimeter-level positioning, controlled Dependent on manual/mold accuracy Part Suitability Complex geometries, thin-walled parts Simple geometries, thick-walled parts Environmental Impact No dust, low noise Dust from wear, noise pollution   Quartz infrared heater with Infrared lamp selection: Shortwave infrared lamp (1.0-1.4μm) suitable for rapid and depth heating, fast medium-wave infrared lamp (wavelength 1.4-2μm) suitable for fast and uniform surface heating of materials.   Shortwave infrared lamp (1.0-1.4μm) suitable for rapid and depth heating   Short Wave Single Tube Infrared Lamp is made of round single quartz tube. The heating filament is tungsten alloy which can resist up to 2600°C. We have 10mm, 11mm, 12mm, 14mm, 15mm and 19mm quartz single tube. The total length of single tube IR lamp can be up to 2.5 meter.     Shortwave Twin Tube Quartz IR Lamp is made of 23×11mm or 33×15mm quartz double tube. The heating filament is tungsten alloy material. Twin tube shortwave infrared heating lamp can be designed with high heating power, the range of radiation wave is 1.0-1.4μm, it is particularly suited for fast response heating processes. This short wave infrared radiation penetrates more deeply into materials, as they can obtain infrared radiation full-efficiency within seconds. Fast medium-wave infrared lamp (wavelength 1.4-2μm) suitable for fast and uniform surface Fast response medium wave infrared lamp can be switched on/off the same as short wave lamps in a short time, and the range of IR radiation wave is 1.4-2.0μm. The especial fast medium wave can heat the surface and thin layers quickly, like drying ink and coatings on the surface of objects in a short time. The heating filaments can be desinged and work in 1200~1800℃, so the FMW IR lamp are widely used for fast heating application which needs heating temperature from 50~500℃. We have single tubes with sizes of 10mm, 11mm, 12mm, 14mm, 15mm, 19mm.    Twin tube fast response medium wave infrared heating lamp can be controlled and adjusted the output power by PLC or SCR regulator automatically, so we can have accurate(±1 ℃)IR heating temperature in industry process. The heating filaments can be desinged and work in 1200~1800℃ with 1~2 seconds fast response time, so the FMW IR lamp are widely used for fast heating application which needs heating temperature from 50~500℃.    
220V 950W Gold Reflector Infrared Heating Lamps For Eliminating Leather Wrinkles
220V 950W Gold Reflector Infrared Heating Lamps For Eliminating Leather Wrinkles
220V 950W Gold Reflector Infrared Heating Lamps For Eliminating Leather Wrinkles Automotive Seat Materials (Whether Genuine Leather or Synthetic Leather) May Develop Wrinkles During Production or Use, and Infrared Heating Lamps Can Be Applied to Eliminate These Wrinkles, Restoring the Material to a Smooth State.       The advantage of infrared heating lies in its rapid and uniform heating capability, which penetrates the material’s surface to ensure even internal heat distribution. For leather or synthetic leather, appropriate heating softens the material, making it easier to stretch or reshape, thereby removing wrinkles. Infrared heating employs specific wavelengths of radiation to penetrate the surface layer of the material, softening internal fibers or molecular structures and reducing rigidity. Once softened, the material can more easily regain a flat shape through mechanical stretching, pressing, or its own weight.     Genuine leather is more temperature-sensitive, requiring lower temperatures and slower heating rates, while synthetic leather can withstand higher temperatures but must avoid melting. Therefore, during the wrinkle-removal process, infrared heating parameters (e.g., wavelength, temperature, duration) must be adjusted based on the material type.       Infrared Heating Lamp -Technical Principles   1. Infrared Lamp -Wavelength Matching    Genuine Leather (Natural Fibers): Use medium-wave infrared heaing lamps (2–4 μm) for gradual heating to avoid protein denaturation and shrinkage caused by high temperatures.   Synthetic Leather (Polymer Materials): Apply fast medium-wave infrared heating lamps (1.4–2 μm) for rapid penetration, softening the PVC/PU layer while preventing surface melting.   2. Infrared Lamp-Temperature Control   Genuine Leather: Maintain temperatures at 60–80°C.   Synthetic Leather: Operate at 80–120°C.   A PID temperature control system dynamically adjusts infrared heating to prevent thermal damage.   3. Uniformity Design By Infrared Heating   Utilize a multi-zone independently controlled infrared lamps matrix combined with gold-reflective-coated heating tubes to enhance radiation uniformity, ensuring temperature variations ≤5°C across the material.     4. Infrared Heating Time Optimization   Genuine Leather: Slow heating over 1–3 minutes to prevent localized overheating.   Synthetic Leather: Short, efficient cycles of 30–60 seconds to avoid insufficient softening.         Single Tube Infrared Lamp  
400V 4000W 1360MM Electric Infrared Heating Element Energy Saving Infrared Radiation Emitter
400V 4000W 1360MM Electric Infrared Heating Element Energy Saving Infrared Radiation Emitter
400V 4000W 1360MM Electric Infrared Heating Element Energy Saving Infrared Radiation Emitter Fast response medium wave infrared lamp can be switched on/off the same as short wave lamps in a short time, and the range of IR radiation wave is 1.4-2.0μm. The especial fast medium wave can heat the surface and thin layers quickly. Fast medium wave lamps can be made in all lengths up to 6 meter long. The twin tube designed lamps are stable and its high power density lamp can transfer high energy to the long material.     Carbon medium wave infrared heating lamps are designed with special carbon fiber heating filament, which are suitable for fast heating of surface or drying water and inks, and the range of IR radiation wave is 2.0-4.0μm. Because of its low color temperature and matched medium wave infrared radiation, carbon medium wave infrared lamps are widely used in industry screen printing for textiles, emulsion drying, tea drying, food and vegetables drying, civilian application like infrared heater for warming, heating stove and natural herbal medicine.   Twin tube carbon medium wave infrared heating lamp can be used for application which needs heating temperature from 40-400 ℃, especailly lower visiable lights requested. We have 23×11mm or 33×15mm double quartz tube for producing different length and different power. In order to better convey and focus on the heated material all the IR radiation emitted from the IR lamp, the special gold reflector or white ceramic reflector will be coated and fixed directly on the quartz surface.   Medium wave quartz infrared radiator lamp are particularly suitable for the fast heating of surface or thin materials, and the range of IR radiation wave is 2.2-4.0μm. Plastic, water and other solvents absorb well this medium wave radiation. Because of its long working life and economical efficiency, medium wave lamps are popular used in continuous heating processes and long heating machine or drying oven.    
230V 1500W 480mm Rapido Tungsten Heating Infrared Lamp Quartz Heater Infrared Tube
230V 1500W 480mm Rapido Tungsten Heating Infrared Lamp Quartz Heater Infrared Tube
230V 1500W 480mm Rapido Tungsten Heating Infrared Lamp Quartz Heater Infrared Tube
400V 1500W 250MM Infrared Drying Lamp For Fabric Dyeing Machine
400V 1500W 250MM Infrared Drying Lamp For Fabric Dyeing Machine
IRTB40-15-250/180-2311G2 Infrared Drying Lamps   Twin Tube Short Wave Infrared Radiant Heat Lamps are widely used in high-efficient industrial fast heating applications. The IR lamp is made of quartz double tube. The heating filament is tungsten alloy material. We have 23×11mm and 33×15mm quartz twin tube for different customers. The total length of twin tube IR lamp can be up to 6.0 meter. In order to better convey and focus on the heated material all the IR radiation emitted from the IR lamp, the special gold reflector or white reflector will be coated and fixed directly on the quartz surface.         Twin tube shortwave radiant infrared heat lamp is designed with high heating power, the range of radiation wave is 1.0-1.4μm, it is particularly suited for fast response heating processes. This short wave infrared radiation penetrates more deeply into materials, as they can obtain infrared radiation full-efficiency within seconds. Meanwhile has the following advantages: High Efficiency and Energy Savings: Direct radiant heating reduces energy loss, offering 20-40% more energy efficiency than traditional methods. Improved Quality: Uniform heating prevents local overheating, ensuring clear textures. Wavelength Matching: Different materials absorb infrared radiation at different wavelengths (e.g., plastics prefer mid-to-short wave infrared). The appropriate type of quartz tube must be selected accordingly. Temperature Control Strategies: Temperature control needs to be combined with thermocouples or infrared sensors for closed-loop control to prevent temperature overshoot. Installation Design: The spacing and angle of the infrared tubes need to be optimized to ensure uniform radiation coverage. Extended Equipment Lifespan: By reducing thermal stress on mechanical components, maintenance frequency is lowered, extending the equipment’s service life.  
400V 12000W Rapid Medium Wave Twin Tube Infrared Emitter IR Radiator Lamp
400V 12000W Rapid Medium Wave Twin Tube Infrared Emitter IR Radiator Lamp
400V 12000W Rapid Medium Wave Twin Tube Infrared Emitter IR Radiator Lamp We are twin tube infrared emitter lamp manufacturer and our twin tube is a better stable design for short wave, fast response medium wave, carbon medium wave and medium wave infrared heating lamps with high radiation density and high power intensity. The twin tube quartz sizes are 23×11mm and 33×15mm. The heating filament of infrared lamps can be designed by tungsten, Ni-Cr alloy and carbon fiber. In order to better convey and focus on the heated material all the IR radiation emitted from the lamps, the special gold reflector or ceramic white reflector will be coated and fixed directly on the quartz surface. Twin tube fast response medium wave infrared heating lamp can be controlled and adjusted the output power by PLC or SCR regulator automatically, so we can have accurate(±1 ℃)IR heating temperature in industry process. The heating filaments can be desinged and work in 1200~1800℃ with 1~2 seconds fast response time, so the FMW IR lamp are widely used for fast heating application which needs heating temperature from 50~500℃.   Because of needing small installation space and flexible working position, our infrared quartz heating lamps are popular for industrial customers to repalce air heating and other high energy consumption electric heating elements, or customers prefer a combination heating solutions which includes circle hot air heating with fast efficient IR heatings.     Applications of infrared heating lamps/quartz emitters Plastics Processing PVB/PVC curing Plastic film stretching Plastic packaging Bottle blowing machine Glass Industry IR preheating for glass Glass bending and lamination Laminated glass cutting Textiles Industry Textile fiber drying Printing Industry offset printing and silk-screen printing label printing and flexo printing Electronic Industry Capacitors plate drying Printed circuit welding wave soldering machine Food and Environment Tableware/Bottle sterilization Roast chicken Chocolate melting Fruit/Vegetable/Herbal medicine dehydrating Melting ice and snow Other industry heating Painting or inks drying/Leather curing/Heat curing adhesive/Rubber drying Mold drying/Acoustic panel hardening/Car bodyshells painting drying      
3000W 6000W Carbon Medium Wave Twin Tube Infrared Emitter Quartz Heating IR Emitter For Industry Drying
3000W 6000W Carbon Medium Wave Twin Tube Infrared Emitter Quartz Heating IR Emitter For Industry Drying
3000W 6000W Carbon Medium Wave Twin Tube Infrared Emitter Quartz Heating IR Emitter For Industry Drying Quartz infrared emitter has proven to be highly effective for drying leather, offering several distinct advantages over traditional methods. Here are the main characteristics and benefits of using high-efficiency infrared heaters for leather drying:   1. Fast Drying Process The use of high-efficiency infrared heaters significantly speeds up the drying process compared to conventional steam hot air convection and heat conduction dryers. Infrared emitter energy is transmitted directly to the leather surface without the need for an intermediate medium. Part of the emitter penetrates into the leather pores, with a penetration depth of up to 0.1 mm to 2.0 mm. The emitter within the capillary pores is almost entirely absorbed after multiple reflections by the pore walls, leading to very high heat transfer efficiency. For the same leather, drying with infrared emitter heaters greatly shortens the drying time. 2. High-Quality Drying The drying quality with quartz infrared emitter is excellent. Since both the surface layer and the inner layers of the leather absorb far-infrared emitter simultaneously, the drying process is uniform. This results in better physical properties of the leather post-drying and improved color quality. For example, in leather goods manufacturing, maintaining uniform drying is critical for ensuring the final product's quality and aesthetic appeal.   3. Energy Efficiency Quartz infrared emitter drying is more energy-efficient compared to other emitter and electric drying methods. It can save more than 50% of the energy typically consumed. Additionally, the infrared radiating elements in these dryers have a simple structure, resulting in smaller equipment size, easier operation, and enhanced safety.   Considerations and Precautions While high-efficiency infrared drying has many advantages, there are important considerations to keep in mind: 1. Leather Area Shrinkage When using infrared emitter to dry leather, significant shrinkage can occur. For grid leather, shrinkage can range from 20% to 30%, and for base leather, from 4% to 6%. Therefore, it is advisable to dry the leather in a constrained or fixed state to minimize shrinkage. This constraint can help maintain the desired dimensions and reduce deformation during the drying process.   2. Heat Distribution Infrared drying supplies much more heat to the leather and its moisture than steam methods, sometimes even dozens of times higher. The strong external heat source creates a large temperature difference between the leather surface and its interior. Consequently, quartz infrared heaters are most suitable for drying thin leather and for drying the leather surface after painting. This focused application ensures that the leather does not overheat or suffer from quality degradation due to uneven heat distribution.
400V 9500W 3700MM Medium Wave Twin Tube Quartz Infrared Heater
400V 9500W 3700MM Medium Wave Twin Tube Quartz Infrared Heater
Quartz Infrared Heaters in Moisture Drying Quartz infrared heaters are an efficient heating device that emits infrared radiation to directly heat the surface and interior of objects, without relying on ambient air temperature. The core principle is the use of infrared electromagnetic radiation to transfer energy in the form of light to the target object. This heating method has significant advantages in moisture drying applications, especially in industrial production where rapid and efficient drying is required.   Advantages of Quartz Infrared Heaters in Moisture Drying Directional Heating: The infrared radiation is focused directly onto the target area, rather than heating the surrounding air. This directional heating improves energy efficiency and reduces unnecessary heat loss. Efficient Drying: Infrared radiation directly acts on water molecules, increasing their kinetic energy and rapidly turning them into vapor. Compared to traditional hot air or steam heating, infrared heating achieves much faster drying times. Applicable to Various Materials: Quartz infrared heat lamps can evenly heat different types of water-based materials. Whether it’s a smooth surface coating or a porous water-absorbing material, precise drying can be achieved.     In moisture drying, medium-wave infrared is particularly effective because its wavelength closely matches the vibration frequency of water molecules, enabling high absorption and rapid conversion of heat, thus accelerating the evaporation process. Medium wave quartz infrared heaters are particularly suitable for the fast heating of surface or thin materials, and the range of IR radiation wave is 2.2-4.0μm. Plastic, water and other solvents absorb well this medium wave radiation. Because of its long working life and economical efficiency, medium wave infrared quartz heater lamps are popular used in continuous heating processes and long heating machine or drying oven.     Main Drying Applications: Industrial Paint and Coating Drying: In the automotive, shipbuilding, and machinery manufacturing industries, rapid curing of coatings and paints is crucial. Quartz infrared heat lamps can quickly evaporate the moisture in the coating, ensuring uniform and durable layers, preventing surface defects caused by moisture residue. Textile and Paper Processing: In textile dyeing and paper production, removing moisture is a key step. Infrared heating can precisely control drying temperatures, avoiding material shrinkage or deformation while speeding up the production process. Food Industry: In food dehydration and drying processes (such as drying fruits or producing powders), infrared heating helps retain nutrients while significantly improving drying efficiency. Construction Material Processing: For concrete, tiles, and other water-containing construction materials, rapid drying ensures stable physical properties during the construction process.
Leather Curing Quartz Infrared Radiation Heater
Leather Curing Quartz Infrared Radiation Heater
Leather curing or drying with quartz infrared radiation has the following characteristics:   (1) The use of high efficient-infrared heaters to dry leather is relatively fast, much faster than the general use of steam hot air convection and heat conduction dryers to dry leather. Because the transmission of infrared radiation energy is direct, it can directly reach the surface of the leather without passing through any intermediate medium, and part of the radiation can penetrate into the interior of the leather pores, with a penetration depth of up to 0.1 mm~2.0mm. The radiation from the capillary pores is almost completely absorbed after a series of reflections by the pore walls, so the heat transfer efficiency is very high. For the same leather, drying with far-infrared radiation can greatly shorten the drying time. (2) The drying quality is good. Since the surface layer of the leather and the inner layer below the surface absorb far-infrared radiation at the same time, the drying is relatively uniform. After drying, the physical properties of the leather are better and the color is improved.   (3) Compared with other radiation drying and other electric drying methods, quartz infrared radiation drying consumes less energy, more than 50% of the energy be saved. Furthermore, the infrared radiating element of the infrared dryer has a simple structure, small equipment size, and is easy and safe to operate.   Although high efficient-infrared drying has the above advantages, there are still two points that need to be paid attention to when drying: (1) When infrared radiation is used to dry leather, the leather area shrinks greatly, 20% to 30% for grid leather and 4% to 6% for base leather. Therefore, it is best to dry in a constrained state (fixed state). (2) Due to the infrared drying, the heat supplied to the leather and the water is much greater than when using the steam method, even dozens of times higher. The external heat source provides strong heat, and the temperature difference between the leather surface and the interior of the leather is large. Therefore, infrared radiation heater is most suitable for drying thin leather and drying the leather surface after painting.
Infrared Heaters For Textiles Powder Scattering and Preheating Fast Medium Wave Twin Tube IR Lamp
Infrared Heaters For Textiles Powder Scattering and Preheating Fast Medium Wave Twin Tube IR Lamp
Fast response medium wave infrared lamp can be switched on/off the same as short wave lamps in a short time, and the range of IR radiation wave is 1.4-2.0μm. The especial fast medium wave can heat the surface and thin layers quickly. Fast medium wave lamps can be made in all lengths up to 6 meter long. The twin tube designed lamps are stable and its high power density lamp can transfer high energy to the long material.     Twin tube fast response medium wave infrared heating lamp can dry ink and coatings on the surface of objects in a short time. The heating filaments can be desinged and work in 1200~1800℃, so the FMW IR lamp are widely used for fast heating application which needs heating temperature from 50~500℃.   1. Accurate(±1 ℃)IR heating temperature control 2. 1~2 seconds fast response time to full power IR heating energy 3. Small installation space, flexible in horizontal or vertical working position   FMW quartz IR lamps have above main advantages and are popular for industrial customers to repalce air heating and other high energy consumption electric heating elements, or customers prefer a combination heating solutions which includes circle hot air heating with fast efficient IR heatings.    
Medium Wave Infrared Lamp 3750W 1600mm Heating Element For Drying Wood Leather Coating
Medium Wave Infrared Lamp 3750W 1600mm Heating Element For Drying Wood Leather Coating
230V 3750W 1600mm Quartz Infrared Heating Element For Industry Wood Leather Painting Drying Voltage: 230V Power: 3750W Tube diameter: 33×15mm Total length: 1600mm Heated length: 1500mm Reflector: Gold Type: C Application: Industrial infrared heating   Medium wave quartz infrared heating elements are particularly suitable for the fast heating of surface or thin materials, and the range of IR radiation wave is 2.2-4.0μm. Plastic, water and other solvents absorb well this medium wave radiation. Because of its long working life and economical efficiency, medium wave lamps are popular used in continuous heating processes and long heating machine or drying oven. We are customized IR heating elements manufacturer and if you need medium wave IR heaters with other specifications, please contact us for confirmation. We need the following specifications. 1: Total length 2: Tube diameter 3: Lamp voltage 4: Lamp power 5: Reflector      Quartz Infrared IR Lamp For Particleboard Preheating Before Spraying Infrared Paint Curing IR Lamp For Coating Industry
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