UV Systems

UV Bonding & Welding Glue Kit

Achieve Crystal-Clear Bonds: The Power of a UV Glass Bonding Kit In today's world, where aesthetics and precision are paramount, glass bonding has become an essential technique for various applications. From delicate repairs to intricate crafting, a UV glass bonding kit offers a powerful and efficient solution. This blog explores the benefits, applications, and essential components of a UV glass bonding kit, empowering you to create flawless glass bonds. Beyond Traditional Adhesives: The Advantages of UV Curing Traditional glass adhesives often require lengthy curing times, leaving room for imperfections and potential bond failures. UV glass bonding kits utilize UV-curable adhesives that solidify rapidly under UV light, offering significant advantages: Rapid Curing: Instant curing under UV light allows for immediate handling and faster project completion. High Bond Strength: UV-cured adhesives create strong, durable, and long-lasting bonds. Optical Clarity: Many UV adhesives are optically clear, ensuring seamless and invisible bonds. Precise Application: The ability to control the curing process allows for precise adhesive placement and minimal waste. Minimal Shrinkage: UV adhesives typically exhibit low shrinkage, resulting in a smooth and even bond line. Applications Across Diverse Projects: UV glass bonding kits are versatile tools suitable for a wide range of applications: Glass Repair: Fixing cracked or chipped glass items, such as vases, glassware, and decorative objects. Glass Crafting: Creating intricate glass art, jewelry, and stained glass projects. DIY Projects: Bonding glass components in home improvement projects and custom creations. Electronics Repair: Bonding glass components in electronic devices, such as touchscreens and displays. Aquarium Repair: Sealing and repairing glass aquariums and terrariums. Optical Bonding: Bonding optical components such as lenses. Essential Components of a UV Glass Bonding Kit: A typical UV glass bonding kit includes: UV-Curable Adhesive: A specialized adhesive that cures rapidly under UV light. UV Light Source: A handheld UV lamp or LED light for curing the adhesive. Precision Applicator: A syringe or needle-tip applicator for precise adhesive placement. Cleaning Supplies: Isopropyl alcohol or other cleaning solutions for preparing the glass surfaces. Safety Glasses: Protective eyewear to shield your eyes from UV light. Instructions: Detailed instructions for proper use and safety precautions. Key Considerations for Optimal Results: Surface Preparation: Thoroughly clean and dry the glass surfaces before applying the adhesive. Adhesive Selection: Choose an adhesive that is compatible with the specific glass materials and application requirements. UV Light Exposure: Ensure adequate UV light exposure for proper curing. Safety Precautions: Always wear safety glasses and follow the manufacturer's instructions. Ventilation: Work in a well-ventilated area to avoid inhaling any fumes. Achieve Flawless Glass Bonds with Ease: A UV glass bonding kit empowers you to create strong, clear, and durable glass bonds with ease. By understanding the benefits, applications, and essential components, you can unlock the potential of UV curing technology and achieve professional-quality results in your glass bonding projects. Contact Us, Incure's authorized distributor for personalized recommendations. Visit www.blazeasia.com to learn more.https://youtu.be/B_k9twRy09o

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March 13, 2025
UV Bonding & Welding Glue Kit
UV Conveyors / UV Systems

UV Curing Conveyors

UV curing conveyors: continuous, automated curing for printing, electronics, & more. Explore benefits, key features, and how to choose the right system.In manufacturing environments demanding rapid and consistent curing, UV curing conveyors stand as a pivotal solution. These systems integrate the precision of UV curing technology with the efficiency of a conveyor belt, leading to increased throughput and superior product quality. This blog delves into the benefits, applications, and crucial considerations when selecting a UV curing conveyor for your operations.Revolutionizing Curing Processes: From Batch to ContinuousTraditional batch curing methods can be time-consuming and inconsistent. UV curing conveyors offer a continuous, automated approach, eliminating bottlenecks and ensuring uniform curing across every product. This transition from batch to continuous processing brings about significant advantages:Increased Throughput: Continuous processing dramatically accelerates production speeds.Consistent Curing: Uniform UV exposure ensures consistent curing quality, minimizing defects.Reduced Handling: Automated conveyance minimizes manual handling, reducing the risk of damage and contamination.Space Optimization: Integrated systems save valuable floor space compared to multiple batch curing setups.Energy Efficiency: Optimized UV systems and continuous operation reduce energy consumption.Diverse Applications Across Industries:UV curing conveyors find application in a wide array of sectors:Printing and Packaging: Curing inks, coatings, and adhesives on labels, packaging materials, and printed electronics.Electronics Manufacturing: Curing conformal coatings, adhesives, and solder masks on PCBs and electronic components.Medical Device Manufacturing: Curing adhesives and coatings on medical devices and components.Automotive Industry: Curing coatings and adhesives on automotive parts and components.Woodworking and Furniture: Curing UV-curable finishes on wood surfaces.Plastics Industry: Curing coatings and adhesives on plastic parts.Key Considerations When Selecting a UV Curing Conveyor:UV Source and Wavelength: Choose a UV source (LED or arc lamp) and wavelength that matches the curing requirements of your materials.Conveyor Speed and Width: Determine the conveyor speed and width needed to accommodate your production volume and product size.UV Intensity and Uniformity: Ensure the system provides sufficient UV intensity and uniform distribution across the curing area.Cooling System: Select a system with an effective cooling system to prevent overheating of sensitive materials.Control System: Evaluate the system's control capabilities, including speed control, intensity adjustment, and monitoring.Safety Features: Ensure the system incorporates appropriate safety features, such as UV shielding and interlocks.Integration and Automation: Consider the system's compatibility with your existing production line and automation requirements.Maintenance and Support: Choose a supplier that offers reliable maintenance and support services.NEWGENTM C9000 UV Conveyor ConfigurationIncure C9000 withL3018Incure C9000 withL1044Incure C9000 withF100x1ABIncure C9000 withF200x1ABIncure C9000 withF400x1ACIncure C9000 withF500x1ACType of LampLED BeamARC FloodARC FocusedIntensity @2.5" DistanceUVA(UVV) mW/cm22,500 (3,000)1,800 (87)154 (141)223(215)312 (287)436 (390)Intensity AdjustmentYesYesNoYesNoNoCuring Energy (belt speed)@ 1.5 feet/min (min)@ 6.0 feet/min (nominal)@ 12.0 feet/min (max)UVA (UVV) mJ/cm28,400 (10,000)2,100 (2,500)1,050 (1,250)UVA (UVV) mJ/cm224,000 (1,100)6,000 (300)3,000 (145)UVA (UVV) mJ/cm24,200 (4,000)1,050 (1,000)525 (500)UVA (UVV) mJ/cm28,900 (8,600)2,200 (2,100)1,100 (1,050)UVA (UVV) mJ/cm210,400 (9,500)2,600 (2,300)1,300 (1,190)UVA (UVV) mJ/cm25,900 (5,500)1,490 (1,400)740 (690)Optional Wavelengths365, 395, 405365, 395, 405320, 365320, 365254, 365254, 365Recommended Working Distance1.5" -3"0.2" - 3"1.5" - 3"1.5" - 3"1.5" - 3"1.5" - 3"Expected Bulb Life>20,000 hrs>20,000 hrs>1,000 hrs>1,000 hrs>1,000 hrs>1,000 hrsIntensity Decay over Life20%20%45%45%45%45%Maximum Part Cure Width Exposure Width8"1"4"4"8"6"8"6"5"5"5"3"Stand-Alone ConfigurationYesYesYesYesYesYesDynamic Uniformity0.9 @ 3.0" distance0.9 @ 3.0" distance0.78…

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March 13, 2025
UV Curing Conveyors
UV LED Flood Lamps / UV Systems

Glass Bonding System

Discover modern glass bonding systems for electronics, architecture, and more. Achieve seamless bonds with high strength and environmental resistance.In today's world, glass is more than just a transparent barrier. From sleek smartphone screens to complex architectural structures, glass plays a crucial role in countless applications. But how do we securely and seamlessly join glass components? The answer lies in advanced glass bonding systems. This blog explores the benefits, applications, and key considerations when selecting the right system for your needs.Beyond Traditional Methods: The Evolution of Glass BondingTraditional methods like mechanical fasteners or simple adhesives often fall short when it comes to glass bonding. They can create stress points, visible seams, or lack the necessary durability. Modern glass bonding systems offer a superior approach, leveraging advanced technologies to create strong, invisible, and long-lasting bonds.Key Benefits of Advanced Glass Bonding Systems:High Bond Strength: Engineered adhesives and curing processes create exceptionally strong bonds, capable of withstanding significant stress.Optical Clarity: Many systems utilize optically clear adhesives, ensuring seamless and invisible bonds.Design Flexibility: Glass bonding allows for complex and innovative designs that would be impossible with traditional methods.Durability and Longevity: Advanced adhesives are resistant to environmental factors like UV radiation, moisture, and temperature fluctuations.Reduced Stress: Uniform stress distribution minimizes the risk of glass breakage.Aesthetic Appeal: Seamless bonds enhance the visual appeal of glass products.     ConfigurationL1044 L1055 L1066L2068 L2088 L2812L3018L51212 Type of LampLED Flood, ProgrammableIntensity  in  mW/cm2 (Measured with  EIT Power  Puck   Distance  from  Lamp Base) UVAUVV  UVA UVV    UVA UVV    UVA UVV   UVA UVV UVA  UVV UVA UVV  UVA UVV  @0.5  275013922001121930911650701380591240 568750 138070 @1.0  254012720401051780  87 153069127058115055 8000 127064@1.5"2420120 1940991700  84 146068121057109054 7500 121060@2.0"2370116 1900931660  81 143067119056107053 7200 119058@2.5" 2260 111 1810871590 78 136066113055102052 6900  113056@3.0" 2070 101 166082145075125065  1040 54 940 51 6750  1040 51 @4.0" 1550 82 1240771090 72 93064 780  53 700 50 6600   780  41  Intensity Adjustment    LED Controller     Available Wavelengths365 , 395, 405  Working Distance   1.5” - 4.0”   Expected Bulb Life*  > 20,000 hrs  Intensity Decay over Life       20%  Static Uniformity @ 2.0”    0.78  Dynamic Uniformity @ 3.0”    0.90  Curing Area 4” x 4” 5” X 5” 6” X 6” 6” X 8”  8” X 8”  8” X 12”1” X 8” 12” X 12” Curing Box Adjustable Heights   (optional   purchase)    3.5” Max Distance   Temperature ManagementForced Air with Standby Mode Power Input 100-240V, 50/60Hz, Auto-Ranging External Control Port      LCD Programmable Panel Ordering Part Number  L1044-365  L1044-395 L1044-405  L1055-365   L1055-395  L1055-405L1066-365 L1066-395 L1066-405L2068-365 L2068-395 L2068-405  L2088-365   L2088-395   L2088-405 L2812-365  L2812-395  L2812-405L3018-365 L3018-395 L3018-405 L21212-365 L21212-395 L21212-405 Irradiator Dimension / Weight  5.1” x 5.1” x 6.4” (4.6 lb)    6.1” x 6.1” x 6.4” (5.9 lb)   7.1” x 7.1” x 6.4” (5.9 lb)   7.6” x 9.1” x 6.4” (9.2 lb)     9.9” x 9.9” x 3.95” (15.5 lb)   9.1” x 18.1” x 6.4” (18.4 lb)    10.3” x 3.6” x 4.0” (5.5 lb) 14.7” x 14.2” x 21.6” (78 lb)     Controller Dimension / Weight12.9” x 5.2” x 9” (17.1 lb) 13” x 9.1” x 5.2” (14.5 lb)    Curing Drawer / Box(Optional                 Purchase,Unless Specified)B300Request For More Information Included       Curing Drawer / Box Dimension  12” x 12” x 5.5”12” x 12” x 5.5”12” x 12” x 5.5”12” x 12” x 5.5”12” x 12” x 5.5” Interlock Safety FeatureIntegrated When Mounted on B300 Curing Drawer C9000 TM Conveyor MountingYesNoNot Applicable   Applications Across Diverse Industries:Glass bonding systems are used in a wide range of industries:Electronics: Bonding touchscreens, display panels, and other components in smartphones, tablets, and other devices.Architecture: Creating structural glass walls, facades, and skylights.Automotive: Bonding windshields, rear windows, and other glass components.Medical Devices: Bonding glass components…

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March 13, 2025
Glass Bonding System
UV LED Flood Lamps / UV LED Spot Lamps

Ultra-High Power UV LED Curing Systems

Switch to high-power UV LED curing for rapid, precise, and eco-friendly results. Learn key selection factors for your manufacturing needs In modern manufacturing, efficiency and speed are paramount. Traditional UV curing methods can be slow, energy-intensive, and environmentally unfriendly. Enter high-power UV curing LED systems: a revolutionary technology that delivers rapid, precise, and sustainable curing for a wide range of applications. This blog delves into the benefits, applications, and key considerations when choosing a high-power UV curing LED system. The Evolution of UV Curing: From Bulbs to LEDs Traditional UV curing relied on mercury arc lamps, which generate significant heat, consume high energy, and contain hazardous materials. High-power UV curing LED systems offer a superior alternative, leveraging the advantages of LED technology: Energy Efficiency: LEDs consume significantly less energy than traditional lamps, reducing operating costs and environmental impact. Long Lifespan: LEDs have a much longer lifespan, minimizing downtime and maintenance costs. Precise Control: LEDs offer precise control over intensity and wavelength, enabling optimized curing for specific materials. Instant On/Off: LEDs turn on and off instantly, eliminating warm-up and cool-down times. Cool Operation: LEDs generate less heat, reducing the risk of damage to heat-sensitive materials. Environmentally Friendly: LEDs are mercury-free, eliminating the risk of hazardous waste. High-Power Advantage: Speed and Performance High-power UV curing LED systems take these benefits to the next level, delivering: Faster Curing Speeds: Higher intensity LEDs enable rapid curing, increasing production throughput. Deeper Curing: High power allows for deeper penetration of UV light, ensuring complete curing of thick coatings and adhesives. Uniform Curing: Advanced optics and LED arrays ensure uniform light distribution, resulting in consistent curing across the entire surface. Increased Productivity: Faster curing and reduced downtime translate to increased productivity and profitability. Applications Across Diverse Industries: High-power UV curing LED systems find applications in a wide range of industries: Adhesive Bonding: Rapid curing of adhesives in electronics, automotive, and medical device manufacturing. Coating Curing: High-speed curing of coatings on wood, plastics, and metal surfaces. Printing and Graphics: Instant curing of inks and coatings in digital printing and graphic arts. Electronics Manufacturing: Curing of conformal coatings, solder masks, and other materials in PCB assembly. Medical Device Manufacturing: Curing of medical adhesives and coatings in a controlled environment. Key Considerations When Choosing a High-Power UV Curing LED System: Wavelength: Select the appropriate wavelength for your specific curing application. Intensity: Determine the required intensity to achieve the desired curing speed and depth. Curing Area: Choose a system with a curing area that matches your production requirements. Control System: Evaluate the system's control capabilities, including intensity control, timing, and monitoring. Cooling System: Ensure the system has an effective cooling system to maintain optimal LED performance. Integration: Consider the system's compatibility with your existing production line. Reliability and Support: Choose a reputable supplier that offers reliable products and comprehensive support. The Future of Curing: Embracing LED Technology High-power UV curing LED systems represent the future of curing technology. By offering superior performance, energy efficiency, and environmental friendliness, these systems are transforming…

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March 13, 2025
Ultra-High Power UV LED Curing Systems
Dispensing Systems

Precision Fluid Dispensing Systems

Discover how fluid dispensing machines ensure precision in manufacturing. Explore applications, benefits, and crucial factors for choosing the right system. In today's fast-paced manufacturing landscape, precision and efficiency are paramount. Whether you're assembling intricate electronics, applying adhesives in medical devices, or sealing components in automotive production, accurate fluid dispensing is crucial. That's where a fluid dispensing machine becomes an indispensable asset. This blog explores the benefits, applications, and key considerations when choosing a fluid dispensing machine. The Power of Precision: Understanding Fluid Dispensing Fluid dispensing machines are designed to apply precise amounts of liquids, adhesives, sealants, and other fluids with unparalleled accuracy and consistency. Unlike manual application, which can lead to inconsistencies and waste, automated dispensing ensures: Consistent Dosing: Precise control over the amount of fluid dispensed, minimizing variations and ensuring uniform application. Accurate Placement: Precise positioning of the dispensing nozzle, allowing for accurate application in even the most intricate designs. Reduced Waste: Optimized fluid usage, minimizing waste and reducing material costs. Increased Throughput: Automated dispensing significantly speeds up production, increasing efficiency and reducing cycle times. Improved Quality: Consistent and accurate dispensing leads to higher product quality and reduced defects. Applications Across Industries: Fluid dispensing machines are used in a wide range of industries, including: Electronics Manufacturing: Applying solder paste, adhesives, and conformal coatings to PCBs and electronic components. Medical Device Manufacturing: Dispensing adhesives for bonding medical devices, applying coatings to implants, and filling syringes. Automotive Manufacturing: Applying adhesives for bonding components, sealing gaskets, and applying lubricants. Aerospace Manufacturing: Dispensing adhesives and sealants for bonding and sealing aircraft components. General Manufacturing: Applying adhesives, sealants, lubricants, and other fluids in various assembly and manufacturing processes. Key Considerations When Choosing a Fluid Dispensing Machine: Fluid Type and Viscosity: Consider the type and viscosity of the fluid you'll be dispensing. Dispensing Accuracy and Repeatability: Evaluate the machine's accuracy and repeatability to ensure it meets your requirements. Dispensing Speed and Throughput: Determine the required dispensing speed and throughput to meet your production needs. Automation Level: Choose a machine with the appropriate level of automation for your application. Software and Control System: Evaluate the machine's software and control system for ease of use and functionality. Maintenance and Support: Consider the availability of maintenance and support services. Budget: Determine your budget and choose a machine that offers the best value for your investment. Dispensing Method: common dispensing methods include time/pressure, jetting, and screw valve. Investing in Efficiency and Quality: A fluid dispensing machine is a valuable investment for any manufacturing operation that requires precise and consistent fluid application. By automating the dispensing process, you can improve product quality, increase efficiency, and reduce costs. In conclusion: Fluid dispensing machines are an essential tool for modern manufacturing. They provide the precision, consistency, and efficiency needed to meet the demands of today's competitive market. By carefully considering your specific needs and choosing the right machine, you can unlock significant benefits and achieve new levels of productivity.

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March 13, 2025
Precision Fluid Dispensing Systems