Container modifications to minimize defects during reactive polyurethane flow
Abstract
A method of reducing the number or size of voids in a polyurethane comprises reacting the formulation components in a container having an inner surface, or having a liner that has an inner surface, that has been modified to reduce the shear forces that normally accompany introduction of such components into a container. This is done by modifying the inner container's or container liner's surface by profiling and/or engraving it, or by including as a liner a mesh. The profiling and/or engraving or mesh serves to alter the formulation's flow dynamics such that the polyurethane has fewer and/or smaller voids, i.e., has a more uniform density, than polyurethanes formed without the modification.
Claims
exact text as granted — not AI-modified1 . A method of reducing the number or size of voids in a polyurethane formed in situ in a container, comprising forming a flow of at least two reactive polyurethane formulation components from a component source such that at least a portion of the flow contacts an inner surface of a container or of a liner thereof, the inner surface being (1) modified over at least 25 percent thereof by either (a) profiling features, said profiling features each having an average height-to-surface measurement ranging from 0.5 millimeter (mm) to 20 mm; or (b) engraving features, said engraving features having a depth-to-surface measurement ranging from 0.1 mm to 0.3 mm; the profiling or engraving features being repeated at intervals that range from 2 to 5 times the height-to-surface or depth-to-surface measurement, respectively; or (2) a mesh or having a mesh interposed between the inner surface and the component source, wherein the mesh has an average pore diameter ranging from 1 mm to 40 mm; under conditions such that a polyurethane is formed, the polyurethane having fewer or smaller voids than a polyurethane formed under identical conditions but without a modified inner surface.
2 . The method of claim 1 , wherein the inner surface is modified over at least 30 percent thereof.
3 . The method of claim 2 , wherein the inner surface is modified over at least 80 percent thereof.
4 . The method of claim 1 , wherein the profile features have an average height-to-surface measurement that ranges from 1 mm to 10 mm.
5 . The method of claim 1 , wherein the polyurethane has voids that are (1) at least 10 percent fewer; (2) at least 10 percent smaller in diameter; or (3) a combination thereof; than a polyurethane formed under identical conditions but without the modified inner surface.
6 . An improvement in a method to form a polyurethane in situ in a container, wherein a flow of at least two reactive polyurethane formulation components into a container with an inner surface is initiated and the components react to form the polyurethane in the container, and wherein the flow exhibits dynamics that include shear forces resulting from the interaction of the flow and the inner surface, and wherein the polyurethane formed in the container from the formulation exhibits undesirable voids therein, the improvement comprising reducing the shear forces resulting from the interaction of the flow and the inner surface by (1) modifying the inner surface of the container or by inserting a liner having a modified inner surface into the container, such that the modification increases the area of the container or liner inner surface contacting the formulation by a factor of at least 25 percent compared to that of an otherwise identical container having an unmodified inner surface; or (2) wherein the liner is a mesh interposed between the inner surface and the component source, wherein the mesh has an average pore diameter ranging from 1 mm to 40 mm; such that the polyurethane exhibits voids that are fewer in number or smaller in average diameter, or both, than voids in a polyurethane formed identically but without the modified inner container or liner surface.
7 . The improvement of claim 6 , wherein the modification increases the area of the inner surface by a factor of at least 30 percent.
8 . The improvement of claim 7 wherein the voids are decreased in number, size or both by at least 10 percent.
9 . The improvement of claim 7 wherein the polyurethane has voids that are (1) at least 10 percent fewer; (2) at least 10 percent smaller in diameter; or (3) a combination thereof; than a polyurethane formed under identical conditions but without the modified inner surface.Cited by (0)
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