The gap wide-wound design is adopted, and the wet film thickness reaches 365.8 μm, which reduces fluid blockage and eliminates scratches. The wide and shallow cavity promotes the flow of thick coatings and improves the wetting effect.
The gap wire-wound structure is adopted, the wet film thickness is 514.4 μ m, and the wide and shallow cavity design makes the flow of high viscosity Coatings smoother and effectively reduces the interruption of coatings.
Using gap wire-wound structure, wet film thickness 251.5 μ m, diaMeter 9.52 mm, through the wide and shallow cavity design to make the thick coating flow more smoothly, effectively reduce Spreader interruption.
The gap wire-wound structure is adopted, the wide and shallow cavity design makes the thick coating flow more smoothly, the smaller wire diaMeter reduces the flow interruption, and the wet film thickness reaches 400.1 μm to improve the wetting effect of high viscosity fluid.
The gap wire-wound structure is adopted, and the wet film thickness reaches 331.5 μm. The thick coating flows more smoothly through the wide and shallow cavity design, which effectively reduces the fluid interruption phenomenon.
The gap wire-wound structure is used to reduce blockage and scratches, and the 205.7 μm wet film thickness is combined with the wide and shallow cavity design to promote better flow and complete wetting of high viscosity fluids.
The gap wide-wound design, wet film thickness 354.3 μ m, can reduce fluid blockage and scratches, wide and shallow cavity to promote thick coating flow, improve wetting effect.
Using gap wire-wound process, wet film thickness of 377.2 μ m, wide and shallow cavity design to promote high viscosity fluid flow, reduce interruption to achieve complete wetting, application width 300mm.
The gap wire-wound structure is adopted, the wide and shallow cavity design makes the thick coating flow more smoothly, the smaller wire diaMeter reduces the flow interruption, and the wet film thickness is 262.9μm, which effectively improves the coating wettability.
The gap wire-wound structure is used to reduce blockage, the wide and shallow cavity design promotes the flow of high viscosity fluid, the wet film thickness is 240 μm to ensure uniform coating, and the wire winding process improves the wetting effect.
Using gap wire-wound process, wet film thickness 194.3 μ m, application width 300mm, through the shallow cavity design to promote high viscosity fluid flow, reduce coating interruption, improve wetting effect.
The gap wire-wound structure is used to reduce blockage and scratches, the wide and shallow cavity design supports high viscosity fluid flow, the wet film thickness is up to 422.9 μm, and the wire is small to optimize the coating wetting effect.
The gap wire-wound structure is used to reduce blockage and scratches, the wide and shallow cavity design promotes the flow of thick coatings, and the 217.2 μm wet film thickness cooperates with smaller wires to reduce flow interruption and improve the effect of coating wetting.
Using gap wire-wound design, wet film thickness 274.3μm, application width 300mm, reduce flow interruption through smaller wire, promote coating complete wetting, suitable for high viscosity fluids.
The gap wire-wound structure is adopted, the wide and shallow cavity design promotes the flow of thick coatings, the smaller wire diaMeter reduces the flow interruption, the wet film thickness is 297.2 μm, and the application width is 300mm to improve the coating wetting effect.
