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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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Photovoltaic Industry IR Lamp
115V 600W Shortwave Twin Tube Infrared Emitter Quartz IR Heater Lamp
115V 600W Shortwave Twin Tube Infrared Emitter Quartz IR Heater Lamp
115V 600W Shortwave Twin Tube Infrared Emitter Quartz IR Heater Lamp
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
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
380V 10000W 4000MM Infrared Heating Radiation Lamps in Solar Cell Soldering
380V 10000W 4000MM Infrared Heating Radiation Lamps in Solar Cell Soldering
Quartz infrared heating lamps provide unique and valuable functionalities that are essential for various processes in the photovoltaic industry, including solar wafer soldering, thin-film curing, and rapid heating in diffusion furnaces.     Solar Wafer Soldering The photovoltaic industry heavily relies on precise and efficient heating methods. Quartz infrared heating lamps play a vital role in the solar wafer soldering process. Their ability to emit infrared radiation makes them highly suitable for soldering solar wafers. Solar wafers are the core components of photovoltaic cells, requiring multiple soldering steps during their manufacturing. Infrared heating lamps can provide precise and uniform thermal energy, ensuring temperature control during the soldering process, thus guaranteeing the quality and reliability of the solder joints. This not only enhances the efficiency of solar cells but also extends their lifespan. The high temperatures they produce ensure a safe and reliable bond during the soldering process, which is crucial for the integrity of the solar cells. The application of quartz infrared heating lamps is an indispensable part of achieving high-quality photovoltaic products.     Non-contact Heating: Directly heats soldering points via infrared radiation to avoid mechanical contact damage to the cells.   Precise Temperature Control: Rapid heating and stable temperature maintenance ensure complete melting of solder (e.g., solder paste) without overheating.   Uniform Heating: Reduces thermal stress and prevents microcracks or efficiency loss in cells caused by localized high temperatures.     Example Solution (4m×4m Panel)   Parameter Design Value Total heating tube length ≥4m (dual-tube design) Single-tube power 10–12kW Radiation wavelength Short-wave infrared (1–2μm, strong penetration capability) Temperature accuracy ±2°C (PID closed-loop control)  
230V 1100W Twin Tube Shortwave Infrared Heat Lamp Quartz Industry Drying Tube Lamp
230V 1100W Twin Tube Shortwave Infrared Heat Lamp Quartz Industry Drying Tube Lamp
230V 1100W Twin Tube Shortwave Infrared Heat Lamp Quartz Industry Drying Tube Lamp
400V 4200W 1800MM Fast Response Medium Wave IR Lamp
400V 4200W 1800MM Fast Response Medium Wave IR Lamp
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.    
480V 6000W Halogen Shortwave IR Lamp Photovoltaic Industry Soldering Welding Infrared Quartz Lamp
480V 6000W Halogen Shortwave IR Lamp Photovoltaic Industry Soldering Welding Infrared Quartz Lamp
480V 6000W Halogen Shortwave IR Lamp Photovoltaic Industry Soldering Welding Infrared Quartz Lamp We are customized IR lamp manufacturer and we have the following shortwave single tube infrared lamps for your reference. If you need single 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 includes end ceramic caps 2: Tube diameter 3: Lamp voltage 4: Lamp power 5: Reflector   
480V 6000W Halogen Shortwave IR Lamp Replacement Toshiba JHS 480V 6000W 290TH1
480V 6000W Halogen Shortwave IR Lamp Replacement Toshiba JHS 480V 6000W 290TH1
480V 6000W Halogen Shortwave IR Lamp Replacement Toshiba JHS 480V 6000W 290TH1 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.
380V 5200W Infrared Heat Lamp Semiconductor Equipment Water Drying IR Emitter
380V 5200W Infrared Heat Lamp Semiconductor Equipment Water Drying IR Emitter
380V 5200W Infrared Heat Lamp Semiconductor Equipment Water Drying IR Emitter Infrared drying is a method that utilizes infrared radiation energy to heat and dry objects. Its principle mainly includes the following aspects: Infrared Radiation: Infrared radiation is a type of electromagnetic wave with wavelengths between visible light and microwaves. Infrared rays have penetrative properties and can be absorbed by the surface of objects, converting into thermal energy. Energy Absorption and Heating: When infrared rays hit the surface of an object, the molecules on the surface absorb the energy from the infrared rays and convert it into heat, causing the temperature of the object to rise. Different materials have different absorption capacities for infrared rays. Typically, dark-colored and rough surfaces absorb infrared rays more effectively. Moisture Evaporation: Under the effect of infrared heating, the moisture inside the object is heated and evaporated. Because infrared rays can directly penetrate the object, the internal moisture can quickly turn into steam and diffuse to the surface, achieving efficient drying. Uniform Heating: Compared to traditional hot air drying methods, infrared drying provides more uniform heating because infrared rays can directly irradiate all parts of the object, unaffected by air circulation. Therefore, it can heat the object more uniformly, avoiding issues like local overheating or uneven drying. Energy-Efficient and High-Efficiency: Due to the direct heating characteristic of infrared drying, it reduces heat loss during the transmission process, resulting in higher thermal efficiency. Additionally, infrared drying equipment usually has a quick start and fast heating speed, significantly shortening drying time and saving energy. In summary, infrared drying directly heats objects through infrared radiation, causing internal moisture to evaporate rapidly, thereby achieving efficient and uniform drying. This method is widely used in the drying processes of industries such as food, pharmaceuticals, wood, and coatings.    
Solar Welding 1800W Twin Tube IR Lamp 1500W Electronic Welding Quartz Infrared Heater Lamp
Solar Welding 1800W Twin Tube IR Lamp 1500W Electronic Welding Quartz Infrared Heater Lamp
1800W Twin Tube IR Lamp Solar Welding Quartz Infrared Heater Lamp Infrared radiation, encompassing electromagnetic waves with wavelengths longer than visible light, typically ranging from 700 nanometers to 1 millimeter, interacts with surfaces by inducing molecular vibration, thereby elevating temperature. This process is highly efficient as it directly heats the target object without significantly affecting the surrounding air, thereby minimizing heat dissipation and maximizing energy transfer. The primary advantage of Quartz Infrared Heat Lamps lies in their ability to provide precise temperature control, facilitating the targeted heating of specific areas on solar cells. This minimizes thermal stress and ensures uniform welding. Additionally, their rapid response time enables swift heating and cooling cycles, thereby reducing production time and enhancing solar cell manufacturing yield. Unlike conventional heating methods such as convection or conduction, infrared radiation heats surfaces directly, resulting in minimal energy wastage. Furthermore, these lamps can be tailored to emit specific wavelengths of infrared radiation, optimizing their effectiveness for various materials and welding applications.     Infrared radiation heating substantially reduces solar cell welding duration compared to traditional methods, thereby enhancing productivity and cost-effectiveness. Moreover, research findings indicate that infrared radiation heating facilitates superior solder joint formation and enhanced conductivity of solar panels, consequently improving energy conversion efficiency and overall performance. Additionally, Quartz Infrared Heat Lamps enable precise control of soldering temperatures, mitigating the occurrence of defects such as voids and cracks in solder joints. This enhances the reliability and durability of solar panels, contributing to their long-term performance and sustainability.   Experimental data and research outcomes underscore the effectiveness of Quartz Infrared Heat Lamps in augmenting productivity, enhancing solder joint quality, and optimizing solar panel performance. As the demand for clean and sustainable energy escalates, the application of infrared radiant heating technology is poised to play a pivotal role in advancing solar cell manufacturing processes, bolstering efficiency and reliability. 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. Meanwhile 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 to 2200°C or higher, so the objects can be heated up to 1000°C or higher, depending on the material and size being heated.      
230V 2000W 660mm IR Lamp photovoltaic industry welding IR Emitter Lamp
230V 2000W 660mm IR Lamp photovoltaic industry welding IR Emitter Lamp
230V 2000W 660mm IR Lamp photovoltaic industry welding IR Emitter Lamp In modern industrial sectors, quartz infrared heating lamps have become a critical component, particularly in the photovoltaic industry. The photovoltaic industry, also known as the solar photovoltaic sector, primarily involves the manufacturing and application of solar cells. Quartz infrared heating lamps provide unique and valuable functionalities that are essential for various processes in the photovoltaic industry, including solar wafer soldering, thin-film curing, and rapid heating in diffusion furnaces.     The photovoltaic industry heavily relies on precise and efficient heating methods. Quartz infrared heating lamps play a vital role in the solar wafer soldering process. Their ability to emit infrared radiation makes them highly suitable for soldering solar wafers. Solar wafers are the core components of photovoltaic cells, requiring multiple soldering steps during their manufacturing. Infrared heating lamps can provide precise and uniform thermal energy, ensuring temperature control during the soldering process, thus guaranteeing the quality and reliability of the solder joints. This not only enhances the efficiency of solar cells but also extends their lifespan. The high temperatures they produce ensure a safe and reliable bond during the soldering process, which is crucial for the integrity of the solar cells. The application of quartz infrared heating lamps is an indispensable part of achieving high-quality photovoltaic products.   Shortwave infrared lamp, twin tube infrared lamp and infrared heating modules are suitable for the diffusion furnace, the vacuum drying equipment, the sintering furnace and the laminating machine for vacuum encapsulating the battery components and other equipment. Advantages of infrared heating lamp:   *Temperature easy to control *Long working life, high thermal efficiency *High temperature resistance, vacuum resistance, high pressure resistance *Good heating uniformity, low failure rate to promise user's efficient production *Efficient and accurate infrared heating to ensure the reliability of laminated solar cells.   Single Tube Short Wave Infrared Lamps are widely used in high-efficient industrial fast heating applications. The  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.
Wave Soldering Infrared Lamp 230V 2000W 511mm Gold Reflector Infrared Heat Lamp
Wave Soldering Infrared Lamp 230V 2000W 511mm Gold Reflector Infrared Heat Lamp
Twin Tube Infrared Lamp (Emitter) For Wave Soldering Machine Jade MKII Gold reflector Voltage =230V Wattage =2000W Total length =511mm 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. Meanwhile 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 to 2200°C or higher, so the objects can be heated up to 1000°C or higher, depending on the material and size being heated.     Twin Tube Short Wave Infrared Heating Lamp are widely used in high-efficient industrial fast heating applications. ①:Metal Heating For Aluminum Foil, Aluminum Casting, Aluminum Extrusion ②:Welding equipment such as copper plate or copper wire welding, electronic components wave soldering ③:Photovoltaic industry such as solar cell welding ④:Heating thin iron or steel plates ⑤:Preheating before sheet metal cutting  ⑥:Other heating application such as environment quick heating for thawing or scientific research   We are customized IR heating lamp manufacturer and we also provide one-stop service for your heating solution. Welcome to inquriy our high efficient quality heating infrared lamps. If you need twin tube IR lamps with other specifications, please feel free to contact us.
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