https://www.avient.com/knowledge-base/case-study/improving-performance-protective-face-masks?pname[]=17080
N95 masks, for example, rely on multi-layer construction, with a middle layer made from melt-blown non-woven material.
This masterbatch was necessary for the manufacture of melt-blown non-woven polypropylene used to make the protective face masks with long-lasting filtration properties.
By introducing additives with charge storage properties, “charge traps” were created to capture the electret charge being applied to melt-blown non-woven material.
https://www.avient.com/knowledge-base/case-study/improving-performance-protective-face-masks
N95 masks, for example, rely on multi-layer construction, with a middle layer made from melt-blown non-woven material.
This masterbatch was necessary for the manufacture of melt-blown non-woven polypropylene used to make the protective face masks with long-lasting filtration properties.
By introducing additives with charge storage properties, “charge traps” were created to capture the electret charge being applied to melt-blown non-woven material.
https://www.avient.com/knowledge-base/case-study/improving-performance-protective-face-masks?sust[]=1134
N95 masks, for example, rely on multi-layer construction, with a middle layer made from melt-blown non-woven material.
This masterbatch was necessary for the manufacture of melt-blown non-woven polypropylene used to make the protective face masks with long-lasting filtration properties.
By introducing additives with charge storage properties, “charge traps” were created to capture the electret charge being applied to melt-blown non-woven material.
https://www.avient.com/knowledge-base/case-study/improving-performance-protective-face-masks?rtype[]=1124
N95 masks, for example, rely on multi-layer construction, with a middle layer made from melt-blown non-woven material.
This masterbatch was necessary for the manufacture of melt-blown non-woven polypropylene used to make the protective face masks with long-lasting filtration properties.
By introducing additives with charge storage properties, “charge traps” were created to capture the electret charge being applied to melt-blown non-woven material.
https://www.avient.com/knowledge-base/case-study/improving-performance-protective-face-masks?ind[]=6598
N95 masks, for example, rely on multi-layer construction, with a middle layer made from melt-blown non-woven material.
This masterbatch was necessary for the manufacture of melt-blown non-woven polypropylene used to make the protective face masks with long-lasting filtration properties.
By introducing additives with charge storage properties, “charge traps” were created to capture the electret charge being applied to melt-blown non-woven material.
https://www.avient.com/products/polymer-additives/additive-dispersions/aquamix-additive-formulations
Fire-retardant solutions
https://www.avient.com/investors/events-presentations?page=9
PolyOne IR Presentation - GS - 5/21/14 - w Non GAAP
PolyOne IR Presentation - Sidoti - w Non GAAP
Forward Looking Statements and Non GAAP Measures
https://www.avient.com/investors/events-presentations?page=12
PolyOne IR Presentation - GS - 5/21/14 - w Non GAAP
PolyOne IR Presentation - Sidoti - w Non GAAP
Forward Looking Statements and Non GAAP Measures
https://www.avient.com/investors/events-presentations?page=4
PolyOne IR Presentation - GS - 5/21/14 - w Non GAAP
PolyOne IR Presentation - Sidoti - w Non GAAP
Forward Looking Statements and Non GAAP Measures
https://www.avient.com/investors/events-presentations
PolyOne IR Presentation - GS - 5/21/14 - w Non GAAP
PolyOne IR Presentation - Sidoti - w Non GAAP
Forward Looking Statements and Non GAAP Measures