Thermally insulating foam with vertically elongated cells

The invention claimed is: 1. An extruded polymer foam, the foam comprising a polymer matrix defining cells therein wherein the foam is characterized by: (a) the polymer matrix comprising styrene-acrylonitrile copolymer and 0.1 to 10 weight-percent infrared attenuator, based on foam weight, dispersed in the polymer matrix; (b) the cells having average sizes in the foam vertical, horizontal and extrusion directions, as determined by ASTM D-3576, such that i. the average size in the foam's vertical direction of 150 micrometers or less; ii. the ratio of average vertical direction cell size to average extrusion direction cell size that is greater than one; and iii. the cell anisotropic ratio that is greater than 1.1; (c) having a P-Ratio of 0.7 or less, with compressive strength values determined according to ASTM D1621; (d) having less than 0.2 moles of hydrocarbon blowing agents in the cells per kilogram of foam as determined by gas chromatography; (e) having a density of 20 to 48 kilograms per cubic meter as determined by ASTM D1622; and (f) having an average 25-year thermal conductivity that is 0.030 Watts per meter-Kelvin or less when free of fluorinated blowing agents and less than 0.028 Watts per meter-Kelvin when containing fluorinated blowing agent, with 25-year thermal conductivity as determined by the slicing technique of EN13164. 2. The extruded polymer foam of claim 1 , further characterized by having an open cell content of less than 30 percent as determined by ASTM D6226-05. 3. The extruded polymer foam of claim 1 , further characterized by having a vertical compressive strength that is greater than 200 kilopascals and a ratio of compressive strength in the vertical direction to the sum of compressive strengths in the vertical, horizontal and extrusion directions that is less than 0.45, where compressive strength is determined by ASTM D1621. 4. The extruded polymer foam of claim 1 , further characterized by containing fluorinated blowing agent in the cells. 5. The extruded polymer foam of claim 1 , further characterized by the polymer matrix comprising more than 90 weight-percent styrene-acrylonitrile copolymer based on total weight of polymer in the polymer matrix. 6. The extruded polymer foam of claim 1 , where polymer foam is free of needle-like particles having a dimension that is 100 nanometers or smaller. 7. The extruded polymer foam of claim 1 , further characterized by the polymer matrix comprising more than 90 weight-percent styrene-acrylonitrile copolymer based on total weight of polymer in the polymer matrix; the infrared attenuator is selected from a group consisting of carbon black and graphite, the P-Ratio of the foam being 0.60 or less, the cells containing fluorinated blowing agent and the 25-year thermal conductivity of the foam is 0.027 Watts per meter-Kelvin or less. 8. A process for preparing the extruded polymer foam of claim 1 , the process comprising: (a) providing a foamable polymer mixture comprising styrene-acrylonitrile copolymer, 0.1 to 10 weight-percent infrared attenuator based on foamable polymer mixture weight and a blowing agent that contains less than 20 mole-percent hydrocarbon based on total moles of blowing agent and providing the foamable polymer mixture at an initial pressure that prevents expansion of the blowing agent; (b) extruding the foamable polymer mixture through a die at a die pressure that is greater than six megapascals and at a foaming temperature in a range of 110 to 135 degrees Celsius into a region of pressure below the initial pressure; and (c) allowing the foamable polymer mixture to expand into a polymer foam while controlling the expansion of the foamable polymer mixture so that the expansion achieve a vertical blow up ratio in a range of 4-12 and an extrusion blow up ratio in a range of 1-2. 9. The process of claim 8 , further characterized by the blowing agent comprising a fluorinated blowing agent, less than 20 mole-percent hydrocarbon and greater than 15 mole-percent water with mole-percent based on total moles of blowing agent. 10. The process of claim 8 , further characterized by the foamable polymer mixture comprising greater than 90 weight-percent styrene-acrylonitrile copolymer based on total weight of polymer in the foamable polymer mixture.