Multiple poly(vinyl butyral) layer interlayers that can be used in multiple layer glass panel type applications that require a high level of impact protection, for example in hurricane protection applications or in bullet proof glass applications. This effect is achieved by forming a poly(vinyl buty
Multiple poly(vinyl butyral) layer interlayers that can be used in multiple layer glass panel type applications that require a high level of impact protection, for example in hurricane protection applications or in bullet proof glass applications. This effect is achieved by forming a poly(vinyl butyral) interlayer that has a relatively stiff poly(vinyl butyral) inner layer disposed between two relatively soft outer poly(vinyl butyral) layers, where the stiffness difference is achieved by a plasticizer differential that is achieved at least in substantial part by a residual hydroxyl content difference among the poly(vinyl butyral) layers.
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1. A method of making a multiple layer interlayer, comprising: forming a first polymer melt, comprising poly(vinyl butyral) and a plasticizer, a second polymer melt comprising poly(vinyl butyral) and a plasticizer, and a third polymer melt comprising poly(vinyl butyral) and a plasticizer, wherein th
1. A method of making a multiple layer interlayer, comprising: forming a first polymer melt, comprising poly(vinyl butyral) and a plasticizer, a second polymer melt comprising poly(vinyl butyral) and a plasticizer, and a third polymer melt comprising poly(vinyl butyral) and a plasticizer, wherein the difference in phr of the plasticizer concentrations between any of said first polymer melt, said second polymer melt, and said third polymer melt is 2 phr or more and wherein the amount of plasticizer in the second polymer melt is less than the amount of plasticizer in at least one of the first polymer melt and the third polymer melt;coextruding said first polymer melt, said second polymer melt, and said third polymer melt to form said interlayer having a first polymer layer, a second polymer layer, and a third polymer layer, with said second polymer layer disposed between said first polymer layer and said third polymer layer;wherein said second polymer layer has a residual hydroxyl content by weight that is at least 0.5% greater than the residual hydroxyl content by weight of said first polymer layer and said third polymer layer, andwherein the tensile break stress of said second polymer layer is more than 15 kilograms per square centimeter greater than the tensile break stress of said first polymer layer and said third polymer layer. 2. The method of claim 1, wherein said second polymer layer has a residual hydroxyl content by weight that is at least 1.0% greater than the residual hydroxyl content by weight in each of said first polymer layer and third polymer layer. 3. The method of claim 1, wherein said second polymer layer has a residual hydroxyl content by weight that is at least 2.0% greater than the residual hydroxyl content by weight in each of said first polymer layer and said third polymer layer. 4. The method of claim 1, wherein the tensile break stress of said second polymer layer is greater than 180 kilograms per square centimeter, the tensile break stress of said first polymer layer and said third polymer layer is less than 230 kilograms per square centimeter, and wherein the tensile break stress of said second polymer layer is more than 15 kilograms per square centimeter greater than the tensile break stress of said first polymer layer and said third polymer layer. 5. The method of claim 1, wherein the difference in phr of the plasticizer concentrations between any of said first polymer melt, said second polymer melt, and said third polymer melt is 5 phr or more. 6. The method of claim 1, wherein the difference in phr of the plasticizer concentrations between any of said first polymer melt, said second polymer melt, and said third polymer melt is 10 phr or more. 7. The method of claim 1, wherein the difference in phr of the plasticizer concentrations between any of said first polymer melt, said second polymer melt, and said third polymer melt is 15 phr or more. 8. The method of claim 1, wherein the difference in phr of the plasticizer concentrations between any of said first polymer melt, said second polymer melt, and said third polymer melt is 20 phr or more. 9. The method of claim 1, wherein said second polymer layer has a residual hydroxyl content by weight that is at least 2.5% greater that the residual hydroxyl content by weight in each of said first polymer layer and said third polymer layer. 10. The method of claim 1, wherein said second polymer layer has a residual hydroxyl content by weight that is at least 3.0% greater that the residual hydroxyl content by weight in each of said first polymer layer and said third polymer layer. 11. The method of claim 1, wherein said second polymer layer has a residual hydroxyl content by weight that is at least 4.0% greater that the residual hydroxyl content by weight in each of said first polymer layer and said third polymer layer. 12. The method of claim 1, wherein said second polymer layer has a residual hydroxyl content by weight that is at least 5.0% greater that the residual hydroxyl content by weight in each of said first polymer layer and said third polymer layer. 13. The method of claim 1, wherein the amount of plasticizer in each of said first and said third polymer melts is from 10 75 phr, and the amount of plasticizer in said second polymer melt is from greater than 0 to 50 phr. 14. The method of claim 1, wherein the first polymer melt and the third polymer melt have the same composition. 15. The method of claim 1, wherein the first polymer melt and the third polymer melt have the different compositions. 16. The method of claim 1, further comprising a fourth polymer layer comprising a polymer melt comprising poly(vinyl butyral) and a plasticizer, wherein the fourth polymer layer is disposed between the first polymer layer and the third polymer layer.
Rinehart,David M.; Smith,Charles Anthony, Glass laminates having improved structural integrity against severe stresses for use in external pressure plate glazing applications.
Ehrhart Wendell A. (Hallam PA), Process for preparing plasticized polyvinyl chloride substrates comprising a moisture-cured polyurethane coating and the.
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