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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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400V 3000W 600MM Twin Tube Infrared Heater Lamp Replacement Heraeus 09751340 Fast Response Infrared Emitter
400V 3000W 600MM Twin Tube Infrared Heater Lamp Replacement Heraeus 09751340 Fast Response Infrared Emitter
400V 3000W 600MM Twin Tube IR Lamp Replacement Heraeus 09751340 Fast Response Infrared Emitter
230V 3000W 650mm Infrared Emitter Replacement Heraeus 09751761 IR Radiator
230V 3000W 650mm Infrared Emitter Replacement Heraeus 09751761 IR Radiator
230V 3000W 650mm Infrared Emitter Replacement Heraeus 09751761 Quartz Infrared (IR) Emitters for all industrial and scientific applications, including offset, flexo, silk-screen, label, graphic arts, and textiles printing, auto-body, paint, paper and rubber drying, leather and adhesive bonding curing, plastic forming, printed circuit welding, glass bending and lamination, blow-molding, inkjet drying, woodworking, food and environment warming, tableware and bottle sterilization, agriculture studies, aerospace researches and other applications. We are always taking responsibility to provide consistent quality and prompt no-hassle service. High efficiency, energy saving, clean heating and long working life for your business, while saving you money. Our quartz heating infrared emitters are designed to provide maximum efficiency and reliability for any industrial heating application. Our infrared lamps are energy efficient and can provide up to 50% more energy savings compared to traditional heating methods. Our lamps are also easy to install and maintain, making them the perfect choice for any industrial heating project. Try our single tube and twin tube quartz infrared lamps today and experience the difference! Give up the low-priced and often headache-causing inferior heating lamps, and choose a high performance-price ratio infrared radiation heating lamps from E-DEN lighting technology. With wise eyes, you will get rid of many troubles and focus more on your business. According to the configuration of different heating filament design and ending cables, twin tube infrared emitter can be produced as the following common filament configuration.  1: Cables can be one side connection or two sides connection 2: Different heating length designed for partial heating purpose 3: Length is up to 6.2 meter long and widely used in industrial heating process, such as glass cutting, plastics forming or lamination, auto painting and etc..   Please contact us for more lamp specifications if you need. 
240V 3200W Clear Infrared Halogen Heating Lamp Replacement 3200T3/CL Infrared Lamp
240V 3200W Clear Infrared Halogen Heating Lamp Replacement 3200T3/CL Infrared Lamp
240V 3200W Clear Infrared Halogen Heating Lamp Replacement 3200T3/CL
230V 3000W SK15 IR Lamp Replacement 14107Z/98 Quartz Infrared Heat Lamp
230V 3000W SK15 IR Lamp Replacement 14107Z/98 Quartz Infrared Heat Lamp
230V 3000W SK15 IR Lamp Replacement 14107Z/98 Infrared heating technology is a revolutionary way to heat plastics for different objects' laminating. It is a cost-effective and efficient method for heating plastics that can be used in a variety of laminating applications. Infrared heating technology works by using infrared radiation to heat the plastic material. This radiation is emitted from a IR source, such as an infrared lamp, and is absorbed by the plastic material. The heat is then transferred to the plastic material, which causes it to become malleable and ready for laminating.   The advantages of using infrared heating lamps for plastics laminating include:   1. Faster heating times: Infrared heating lamps can heat plastics faster than traditional methods, the response time is 1-2 seconds to run full power with infrared energy, so the plastic films can be heated faster, 3-4 mm thickness plastic film can be heated to 150-200 ℃ within 40 seconds. The traditional methods cannot achieve this heating temperature in a short time.    2. More uniform heating: Infrared heating lamps can be distributed evenly on the top and under the heated materials, or the two sides of plasics films. The sealed ir lamps can always radiant stable infrared rays without outer affects, EDEN infrared lamps can provide more uniform heating than traditional methods, resulting in more consistent products.   3. Lower energy costs: Infrared heating lamps does not need intermediate medium to transfer heat, so there are not so much energy loss than traditional methods, quartz infrared lamps are more high efficiency for industrial drying.   4. Safer: Infrared heating lamps are safer than traditional methods, as lamps does not produce any hazardous byproducts, especially greenhouse gases such as carbon dioxide.   5. More precise: Infrared heating lamps can be turned on and off frequently than traditional heat methods, the output power can be controlled and adjusted from 0-rated power, so we can set up the stable and precise heating temperature for heated laminating objects.        We are customized IR lamp manufacturer and we have the following laminating infrared lamps for your reference. If you need single tube IR lamps with other specifications, please contact us for free solutions. 1: Total length includes end ceramic caps 2: Tube diameter 3: Lamp voltage 4: Lamp power 5: Reflector   
Halogen Quartz Infrared Lamp 3000W Quartz Electric IR Lamp Replace For Krones Blow Moulding Machines
Halogen Quartz Infrared Lamp 3000W Quartz Electric IR Lamp Replace For Krones Blow Moulding Machines
Halogen Quartz Infrared Lamp 3000W Quartz Electric IR Lamp Replace For Krones Blow Moulding Machines
415V 3500W 1300mm Infrared Emitter Quartz Tube IR Lamp
415V 3500W 1300mm Infrared Emitter Quartz Tube IR Lamp
415V 3500W 1300mm Infrared Emitter Quartz Tube IR Lamp We are double quartz tube IR Emitter manufacturer and if you need twin tube IR lamps with other specifications, please refer the attached technical drawing and contact us for confirmation. We need the following specifications. 1: Total length 2: Heated length 3: Tube diameter 4: Lamp voltage 5: Lamp power 6: Reflector      Double quartz 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 double tube IR emitter's sizes can be 23×11mm and 33×15mm. The heating filament of infrared IR emitters 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.     According to the configuration of different heating filament design and ending cables, twin tube infrared lamp can be produced as the following common filament configuration.  1: Cables can be one side connection or two sides connection 2: Different heating length designed for partial heating purpose 3: Length is up to 6 meter long and widely used in industrial heating process, such as glass cutting, plastics forming or lamination, auto painting and etc..     Applications of Infrared Heating Technology in Packaging Production for the Food and Medical Industries Food Packaging Material Drying: Used for drying food packaging films or coatings to ensure uniformity and stability. Food Dehydration: Used for rapid dehydration of fruits, vegetables, and meat products, preserving nutrients and extending shelf life. Food Sterilization: Utilizes the high-temperature characteristics of infrared radiation to sterilize food surfaces, improving food safety. Medical Device Packaging Sterilization: Used for the sterile treatment of medical equipment packaging, enhancing hygiene standards for medical products. Pharmaceutical Packaging Drying: Applied to the drying of pharmaceutical capsules and tablet packaging to ensure product stability. Electronics Packaging: Used for drying electronic component packaging films to prevent moisture-related short circuits or damage. Cosmetics Industry: Applied to the drying of packaging materials for skincare products, lipsticks, etc., improving product quality and appearance.  
230V 3000W Infrared Heating Lamp For Folding Thermoplastic Films 1200MM Quartz Radiation Infrared Emitter
230V 3000W Infrared Heating Lamp For Folding Thermoplastic Films 1200MM Quartz Radiation Infrared Emitter
230V 3000W Infrared Heating Lamp For Folding Thermoplastic Films 1200MM Quartz Radiation Infrared Emitter Infrared heating lamps are widely used in the processing of thermoplastic materials. Their efficient and precise heating characteristics make them a significant technology in modern industry, serving as an alternative to traditional heating methods such as convection or contact heating.   Infrared Heating Advantages:   High Efficiency: Infrared radiation heat transfer efficiency can reach up to 90%, which is more than 50% higher than that of hot air convection heating (30-40%).   Rapid Heating: Heating speed is 5-10 times faster than traditional methods. For example, in PVC sheet thermoforming, infrared heating reduces the cycle time from 120 seconds to 20 seconds, increasing production capacity sixfold.   Precise Temperature Control: Temperature control accuracy is ±1°C, preventing overheating or insufficient melting. For instance, the defect rate in medical catheter welding decreased from 3% to 0.2%.   Wavelength Matching: Short-wave infrared (0.8-1.4μm) is suitable for dark materials (e.g., carbon fiber-reinforced plastics), while medium to long-wave infrared (2-10μm) is ideal for transparent or light-colored materials (e.g., PC, PMMA).   Customizable Power Density: Power density can be customized up to 300KW/M².   Adjustable Radiation Distance: The distance between the infrared heating tube and the heated object can be adjusted for safety and uniformity, preventing overheating or material melting hazards.       E-DEN Lighting Technology is a professional IR heating solution supplier which was established in 2011. We produce high quality quartz infrared radiator lamps and design different IR heating modules for all industrial and scientific applications, including offset, silk-screen, label, graphic arts and textiles printing, auto-painting, paper and rubber drying, leather and adhesive bonding curing, plastic forming, glass bending and lamination, blow-molding, woodworking, tableware and bottle sterilization, agriculture studies, aerospace researches and other applications. Our technology team can design and produce infrared heating lamps or IR heaters according to your heating requests. We are always taking responsibility to provide consistent quality and prompt no-hassle service. High efficiency, Energy saving, Good quality and Long working life for your business, while saving your money.   Industry Plastic Heating Applications:   Plastic Welding and Bonding: Infrared heating lamps emit infrared radiation with strong penetration, allowing focused heating on weld seams (e.g., automotive tail lights, medical device housings). This enables rapid surface melting for seamless welding, avoiding overall heating-induced thermal deformation.       Injection Molding and Extrusion Processes: Infrared heating lamps can quickly preheat molds before injection, reducing issues like short shots or residual stress. They also efficiently remove trace moisture from hygroscopic materials like PET, preventing injection molding defects.       Thermoforming and Film Processing: In thermoforming, infrared radiation can penetrate ABS sheets up to 5mm thick, achieving synchronous heating of inner and outer layers (temperature difference <5°C), reducing uneven cooling shrinkage. In bi-axial stretching of films, infrared heating lamps can elevate the film to its glass transition temperature (e.g., PET's Tg ≈75°C) before stretching, ensuring consistent molecular orientation.     3D Printing and Composite Materials: In selective laser sintering, infrared heating maintains the powder bed at 170-180°C, reducing laser energy requirements and increasing forming speed by over 30%. Localized infrared heating can activate epoxy resin matrices for rapid curing (e.g., from 120°C to 180°C in just 2 minutes).     The value of infrared heating lamps in thermoplastic processing lies not only in energy savings and cost reduction but also in their precise thermal management, driving the manufacture of high-value-added products such as microfluidic chips and lightweight composite components.
Fabric Embossing IR Lamp 4000W 2000mm Length Twin Tube Quartz Infrared Light Lamps
Fabric Embossing IR Lamp 4000W 2000mm Length Twin Tube Quartz Infrared Light Lamps
Fabric Embossing IR Lamp 4000W 2000mm Length Twin Tube Quartz Infrared Light Lamps EDIRTB40-40-2000/1900-2311G2 Lamp voltage=400V Lamp wattage=4000W Total length=2000mm Heated length=1900mm Reflector=Gold coating Twin tube=23×11mm Connection= One side with cables Working position=Horizontal Other specifications can be customized according to your requests.   Quartz infrared heating lamps are applied in embossing machines primarily due to their efficient thermal radiation properties, which allow for rapid and uniform heating of materials or components, optimizing the embossing process. They are particularly useful when processing surfaces that require high temperatures for embossing or texture processing. Embossing machines are often used to imprint patterns or textures onto material surfaces such as paper, leather, plastics, and metals.   Application Methods in Embossing Machines Embossing machines create textures on material surfaces (such as plastic, leather, or paper) using high temperature and pressure. Quartz infrared heating tubes are commonly used in the following stages:   Heating the Embossing Rollers: Quartz infrared tubes are arranged around or inside the embossing rollers to directly radiate heat to the roller surface, uniformly raising its temperature to the material's softening point (e.g., PVC at 120-160°C), ensuring optimal material stretchability during embossing.    Preheating Materials: Infrared tubes preheat the material before it enters the embossing rollers, reducing the heat load on the rollers and improving overall efficiency.     Auxiliary Molding Heat: For complex textures or thick materials, infrared tubes can provide localized heat to the molds, preventing uneven temperatures that could lead to blurry textures.     Application Cases Case 1: Plastic Film Embossing (PVC Decorative Film) Application: For plastic products, particularly high-polymer materials, quartz infrared heating tubes can effectively focus heat on the plastic surface, softening it for optimal embossing. This process not only speeds up production but also prevents deformation or deterioration of the plastic due to over-heating. The infrared tubes are embedded inside the embossing rollers to heat the roller surface to 140°C, replacing traditional electric heating wires. Results: Preheating time is reduced from 20 minutes to 3 minutes. Energy consumption decreases by 35% as infrared radiation directly reaches the roller surface, minimizing heat loss. Texture clarity improves, and defect rates decrease by 12%.   Case 2: Leather Embossing Application: In leather embossing machines, quartz infrared heating tubes quickly heat the leather surface to achieve optimal flexibility. This allows for more precise control when embossing detailed textures with minimal pressure, preventing damage to the leather. Quartz infrared tubes are installed above the embossing mold in adjustable arrays, with radiation intensity dynamically adjusted based on leather thickness. Results: Temperature control is precise, preventing leather from scorching. Production efficiency increases by 25% as heating speed matches the production line’s pace.   Case 3: Paper Embossing Relief Process Application: In paper production, especially for high-quality paper embossing, quartz infrared heating tubes preheat the paper surface, making it easier to form textures during embossing and preventing wrinkles or uneven textures. For artistic paper products requiring localized relief effects, medium-wave infrared tubes (wavelength 2.0-4μm) quickly heat the paper surface to 80°C, softening the fibers before immediate embossing. Results: Prevents paper from becoming too dry and brittle. Texture depth consistency improves, making it suitable for small-batch customized production.
2000W 3000W 4000W 1000MM Twin Tube Carbon Medium Wave Infrared Heater IR Emitter
2000W 3000W 4000W 1000MM Twin Tube Carbon Medium Wave Infrared Heater IR Emitter
2000W 3000W 4000W 1000MM Twin Tube Carbon Medium Wave Infrared Heater IR Emitter Quartz infrared heat emitters 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.   Working Principle of Infrared Heating Quartz infrared heat emitters operate by heating the heating element inside the quartz glass tube, generating infrared radiation. Depending on the wavelength of the infrared radiation, quartz infrared heat emitters are typically divided into short-wave, medium-wave, and long-wave types: Short-wave infrared (0.76-2 µm): Strong penetration, suitable for deep heating. Medium-wave and carbon medium wave infrared (2-4 µm): High absorption rate by water molecules, especially suitable for drying water-containing materials. Long-wave infrared (4-15 µm): Heat concentrated on the surface, suitable for surface drying or low-temperature heating.   In moisture drying, medium-wave and carbon 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. Carbon medium wave infrared heating emitters are designed with special spiral 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 emitters 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 emitter 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 emitter, the special gold reflector or white ceramic reflector will be coated and fixed directly on the quartz surface.   We are customized IR emitters manufacturer and we can desing and produce carbon IR emitter for you in different heating types. If you need twin tube carbon medium wave quartz infrared emitter with other specifications, please contact us and we will check the following specifications with you within 4 working hours.   1: Total length 2: Tube diameter 3: Lamp voltage 4: Lamp power 5: Reflector        Applicable to Various Materials: Quartz infrared heat emitters 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. 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 emitters 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.
400V 4KW Infrared Heater Lamp IR Emitter Replacement Toshiba JHC 400V 4000W 700BfH Infrared Lamp
400V 4KW Infrared Heater Lamp IR Emitter Replacement Toshiba JHC 400V 4000W 700BfH Infrared Lamp
400V 4KW Infrared Heater Lamp IR Emitter Replacement Toshiba JHC 400V 4000W 700BfH Infrared Lamp Single Tube Short Wave Halogen Infrared Lamps are widely used in high-efficient industrial fast heating applications. The halogen IR lamp is made of quartz single tube. The heating filament is tungsten alloy material. We have 10mm, 11mm, 12mm, 14mm, 15mm and 19mm single quartz tube for different customers. The total length of single tube IR lamp can be up to 2.5 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.   Short Wave Single Tube Halogen IR Lamp Peak wavelength 1.0-1.4μm Response time >1 second Diameter (mm) 10 11 12 14 15 19 Max. Length (m) 1.1 1.1 1.5 2.0 2.0 2.5 Reflector White or Gold reflector Burning position Horizontal or Vertical     Halogen short-wave infrared heating lamp has the following advantages: 1. Fast response time, the heating temperature can rise and fall quickly 2. By combining with the reflection module, IR lamps can work in a small area by concentrating light or parallel irradiation 3. The lamp does not touch the heated object and can be used in a clean environment and no harmful 4. The working lamp is not disturbed by the atmosphere and external environment and can be used in a vacuum oven. 5. Inside of filaments can be designed and heat up to 2200°C, so the objects can be heated up to 1000°C or higher, depending on the material and size being heated.   We are customized IR lamp manufacturer. If you need single tube IR lamps with other specifications for industry drying, please feel free to contact us.
1000W PET Preheating IR Lamp 1500W PVC Laminating Quartz Heater Lamp 2000W Crystallizer Drying Infrared Lamp
1000W PET Preheating IR Lamp 1500W PVC Laminating Quartz Heater Lamp 2000W Crystallizer Drying Infrared Lamp
1000W PET Preheating IR Lamp 1500W PVC Laminating Quartz Heater Lamp 2000W Crystallizer Drying Infrared Lamp Advanced Crystallization and Drying Technology-Infrared Drying  The PET Plastic Infrared Crystallizer Dryer Machine is engineered to complete the crystallization and drying processes simultaneously, ensuring efficiency and optimal performance. This integrated approach not only speeds up the processing time but also enhances the quality of the final product. This versatility makes it an ideal choice for manufacturers working with different types of plastics, ensuring consistent drying and crystallization quality across various materials. Such as PET (Polyethylene Terephthalate), PLA (Polylactic Acid),PC (Polycarbonate) and other new and recycled materials     Innovative Fast Heating Infrared Technology Direct Radiation: The infrared rays directly radiate the raw material layer, ensuring efficient energy transfer. Internal Heating: The temperature rises from within the raw material, allowing for uniform and thorough heating. Rapid Vaporization: As the water content is quickly heated, it vaporizes almost instantly, moving from the inside of the material to the surface and then being expelled. Optimal Crystallization and Drying: This rapid and efficient process ensures that the raw materials achieve the best possible crystallization and drying results in a short period of time.   Benefits and Applications   Time Efficiency: The infrared drying dramatically reduces the time needed for crystallization and drying, increasing overall production efficiency. Energy Efficiency: The use of short-wave infrared technology ensures energy is used effectively, reducing operational costs. Quality Improvement: The precise control over the drying and crystallization process improves the quality and consistency of the end product. Versatility: Suitable for a wide range of materials, making it a flexible solution for various industrial applications.    
235V 2500W Film Laminating IR Lamp Automatic Paint Drying Infrared Lamp
235V 2500W Film Laminating IR Lamp Automatic Paint Drying Infrared Lamp
235V 2500W Film Laminating IR Lamp Automotive Paint Drying Infrared Lamp Infrared heating technology is a revolutionary way to heat plastics for different objects' laminating. It is a cost-effective and efficient method for heating plastics that can be used in a variety of laminating applications. Infrared heating technology works by using infrared radiation to heat the plastic material. This radiation is emitted from a IR source, such as an infrared lamp, and is absorbed by the plastic material. The heat is then transferred to the plastic material, which causes it to become malleable and ready for laminating.   The advantages of using infrared heating lamps for plastics laminating include:   1. Faster heating times: Infrared heating lamps can heat plastics faster than traditional methods, the response time is 1-2 seconds to run full power with infrared energy, so the plastic films can be heated faster, 3-4 mm thickness plastic film can be heated to 150-200 ℃ within 40 seconds. The traditional methods cannot achieve this heating temperature in a short time.    2. More uniform heating: Infrared heating lamps can be distributed evenly on the top and under the heated materials, or the two sides of plasics films. The sealed ir lamps can always radiant stable infrared rays without outer affects, EDEN infrared lamps can provide more uniform heating than traditional methods, resulting in more consistent products.   3. Lower energy costs: Infrared heating lamps does not need intermediate medium to transfer heat, so there are not so much energy loss than traditional methods, quartz infrared lamps are more high efficiency for industrial drying.   4. Safer: Infrared heating lamps are safer than traditional methods, as lamps does not produce any hazardous byproducts, especially greenhouse gases such as carbon dioxide.   5. More precise: Infrared heating lamps can be turned on and off frequently than traditional heat methods, the output power can be controlled and adjusted from 0-rated power, so we can set up the stable and precise heating temperature for heated laminating objects.        We are customized IR lamp manufacturer and we have the following laminating infrared lamps for your reference. If you need single tube IR lamps with other specifications, please contact us for free solutions. 1: Total length includes end ceramic caps 2: Tube diameter 3: Lamp voltage 4: Lamp power 5: Reflector   
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