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Multi-Layer Coating II
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If you are currently coating more than one layer of coating onto a substrate, you may want to consider the option of multi-layer coating. To provide more than one fluid at a time to a substrate, a pre-metered method like slot die coating is required. Slot die multi-layer coating is typically with 2-3 layers, with more layers for special arrangements–like photographic film coating. With more than 3 layers, the slot die is typically referred to as a slide die.
In multi-layer coating, there is simultaneous application of two or more layers of fluid. This requires that each fluid has a separate fluid delivery system for pre-metered control. Proper sizing and pump type determination needs to be considered for each fluid.
Typical multi-layer coating application is to avoid multiple passes in a coating operation. The liquids are layered outside the slot exit because one wants to reduce the effect of pressure on the miscibility of the fluids. If you imagine trying to layer flow inside the pressurized region of a slot die, the fluids would mix due to turbulent flow.
Surface energy of the top layer needs to be lower than the surface energy of the bottom layer. This can be modified through surfactants.
σtop < σbottom (surface energy stability)
While the most critical feature of the fluids as they interact in multi-layer coating is the surface energy of the top layer, the subsequent underlying layers as you approach the substrate need to vary enough to keep separation. The stratification of the surface energies should be on the order of one or more mN/m per layer.
Challenges of multi-layer coating include the following:
Above all else, the key challenge to consider is the invasion of fluid from one layer to another, which occurs when the layer thickness is less than 1/3 of the coating gap.
Now multi-layer coating by itself takes some chemical understanding of the fluid, but we haven’t even discussed the process details. In multi-layer coating, one option to consider for coating high speed is tensioned web over slot die (TWOSD). With TWOSD multi-layer coating, you need to keep the top layer wet thickness and bottom layer thickness within certain parameters:
So, if you are currently coating multiple fluids in multiple passes, consider the concept of decreasing manufacturing cost by coating multiple fluids wide, fast, and in one pass.
The post Multi-Layer Coating II first appeared on Coating Tech Slot Dies.
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By Coating Tech Slot Dies/wp-content/uploads/multilayer_coating_ii.mp3
Download Audio File
If you are currently coating more than one layer of coating onto a substrate, you may want to consider the option of multi-layer coating. To provide more than one fluid at a time to a substrate, a pre-metered method like slot die coating is required. Slot die multi-layer coating is typically with 2-3 layers, with more layers for special arrangements–like photographic film coating. With more than 3 layers, the slot die is typically referred to as a slide die.
In multi-layer coating, there is simultaneous application of two or more layers of fluid. This requires that each fluid has a separate fluid delivery system for pre-metered control. Proper sizing and pump type determination needs to be considered for each fluid.
Typical multi-layer coating application is to avoid multiple passes in a coating operation. The liquids are layered outside the slot exit because one wants to reduce the effect of pressure on the miscibility of the fluids. If you imagine trying to layer flow inside the pressurized region of a slot die, the fluids would mix due to turbulent flow.
Surface energy of the top layer needs to be lower than the surface energy of the bottom layer. This can be modified through surfactants.
σtop < σbottom (surface energy stability)
While the most critical feature of the fluids as they interact in multi-layer coating is the surface energy of the top layer, the subsequent underlying layers as you approach the substrate need to vary enough to keep separation. The stratification of the surface energies should be on the order of one or more mN/m per layer.
Challenges of multi-layer coating include the following:
Above all else, the key challenge to consider is the invasion of fluid from one layer to another, which occurs when the layer thickness is less than 1/3 of the coating gap.
Now multi-layer coating by itself takes some chemical understanding of the fluid, but we haven’t even discussed the process details. In multi-layer coating, one option to consider for coating high speed is tensioned web over slot die (TWOSD). With TWOSD multi-layer coating, you need to keep the top layer wet thickness and bottom layer thickness within certain parameters:
So, if you are currently coating multiple fluids in multiple passes, consider the concept of decreasing manufacturing cost by coating multiple fluids wide, fast, and in one pass.
The post Multi-Layer Coating II first appeared on Coating Tech Slot Dies.