We are offering uv lamps.
Due to the increase in the demand of various uv lamps and our 18 years of experience with uv light, we would like to cater to the various demands of uv light sources for various applications. Only a few lamps have been listed here, but if you have a requirement of uv (ultraviolet) or ir (infrared) lamps for any special application. We are sure to meet you demand. More over we are not just dealers or stockists; but people with technical knowledge to give you information on the right lamp to meet you need.
We are offering uv lamps.
Due to the increase in the demand of various uv lamps and our 18 years of experience with uv light, we would like to cater to the various demands of uv light sources for various applications. Only a few lamps have been listed here, but if you have a requirement of uv (ultraviolet) or ir (infrared) lamps for any special application. We are sure to meet you demand. More over we are not just dealers or stockists; but people with technical knowledge to give you information on the right lamp to meet you need.
We offer Ultraviolet Curing Adhesives.
Ultraviolet curing adhesives are widely used in optical lamination of precision optical lenses, safety windows, holographic displays, and flat panel displays. In most of these applications they are being used in relatively thin films from 3 microns to 40 mils, because most formulations will only allow UV light to penetrate to a certain depth. If the formulation does cure in thicker sections, the stress due to shrinkage typically becomes a problem.
UV adhesives have been developed which can be cured in relatively thick sections with minimum stress. In this paper, a number of formulations are compared for variations in stress when cured in thick sections and the conditions and mechanism to minimize stress are characterized.
We offer Ultraviolet Curing Adhesives.
Ultraviolet curing adhesives are widely used in optical lamination of precision optical lenses, safety windows, holographic displays, and flat panel displays. In most of these applications they are being used in relatively thin films from 3 microns to 40 mils, because most formulations will only allow UV light to penetrate to a certain depth. If the formulation does cure in thicker sections, the stress due to shrinkage typically becomes a problem.
UV adhesives have been developed which can be cured in relatively thick sections with minimum stress. In this paper, a number of formulations are compared for variations in stress when cured in thick sections and the conditions and mechanism to minimize stress are characterized.
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