[Product Features]: 1. Cold light source, no heat radiation; 2. The machine can be switched on and off repeatedly and is ready to use without preheating. 3. The energy is stronger, 1W equivalent to 10W conventional UV lamps. [Application]: The LED UV lamp must be placed as close as possible to the surface of the cured object. The smaller the distance, the better. It is best to keep a distance of 1-8 cm. Too large irradiation distance significantly affects the curing effect. [Scope of application]: UV curing (shadowless glueInkColorResin Film), manicure, crystal glue, UV compliant paint, photochemical catalysis, medical physiotherapy, aging test, UV printing, plastic printing, diazo copier, mobile phone LCD screens, etc. Reminder: dear ladies and gentlemen, in order to achieve the best curing effect, please try to specify the parameters of UV glue, so that we can offer you the most effective products › See more product details; Product description Note: Due to the light and screen resolution, pictures and real objects may have slight color differences. Please refer to real products. Manual measurement may vary a few centimetres from the actual distance. We describe the light effect performance, not the voltage power. [Power consumption]: 300W (equivalent to 3000W light effect of conventional UV lamps). [Output wavelength]: 365nm\\385nm\\395nm\\405nm (±10nm) Dimensions: 408 mm x 300 mm. [Wire Length]:1.8m [Light source]: High performance LED UV diode (imported chip) [Heat Dissipation Method]: Fan Cooling + Aluminum Alloy Cooling Irradiation distance: within 50 mm. [Use environment]: Conventional room temperature (0-40℃, humidity 20-85%), clean operating environment can be applied Tips To achieve the best curing effect, you need to pay attention to two points: 1. The wavelength of the light curer contained in the UV adhesive must match the wavelength emitted by the UV lamp; 2. The ultraviolet energy emitted by the UV lamp must correspond to the energy required for curing the UV adhesive.; Product description Note: Due to the light and screen resolution, pictures and real objects may have slight color differences. Please refer to real products. Manual measurement may vary a few centimetres from the actual distance. We describe the light effect performance, not the voltage power. [Power consumption]: 300W (equivalent to 3000W light effect of conventional UV lamps). [Output wavelength]: 365nm\\385nm\\395nm\\405nm (±10nm) Dimensions: 408 mm x 300 mm. [Wire Length]:1.8m [Light source]: High performance LED UV diode (imported chip) [Heat Dissipation Method]: Fan Cooling + Aluminum Alloy Cooling Irradiation distance: within 50 mm. [Use environment]: Conventional room temperature (0-40℃, humidity 20-85%), clean operating environment can be applied Tips To achieve the best curing effect, you need to pay attention to two points: 1. The wavelength of the light curer contained in the UV adhesive must match the wavelength emitted by the UV lamp; 2. The ultraviolet energy emitted by the UV lamp must correspond to the energy required for curing the UV adhesive.; Note: Due to the light and screen resolution, pictures and real objects may have slight color differences. Please refer to real products. Manual measurement may vary a few centimetres from the actual distance. We describe the light effect performance, not the voltage power. [Power consumption]: 300W (equivalent to 3000W light effect of conventional UV lamps). [Output wavelength]: 365nm\\385nm\\395nm\\405nm (±10nm) Dimensions: 408 mm x 300 mm. [Wire Length]:1.8m [Light source]: High performance LED UV diode (imported chip) [Heat Dissipation Method]: Fan Cooling + Aluminum Alloy Cooling Irradiation distance: within 50 mm. [Use environment]: Conventional room temperature (0-40℃, humidity 20-85%), clean operating environment can be applied Tips To achieve the best curing effect, you need to pay attention to two points: 1. The wavelength of the light curer contained in the UV adhesive must match the wavelength emitted by the UV lamp; 2. The ultraviolet energy emitted by the UV lamp must correspond to the energy required for curing the UV adhesive.
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