Patent application number | Description | Published |
20130122316 | METHOD FOR PRODUCING METALIZED FIBROUS COMPOSITE SHEET WITH OLEFIN COATING - A composite sheet is manufactured by depositing a multi-layer coating on the outer surface of a substrate, the coating comprising a metal layer and an outer polymeric layer formed from a precursor comprising a polymerizable composition that includes a olefin group and a moisture curable group, such as an isocyanate or silane group. After the precursor is applied, the composite sheet is exposed to both beam radiation and moisture, which respectively promote polymerization and curing at different sites of the precursor. The function of the cured polymeric layer includes protecting the metal layer from corrosion. The amenability of the isocyanate or silane functionality to moisture-promoted coupling promotes substantially full conversion and curing of the precursor, even of portions of the substrate that are geometrically shadowed from incident beam radiation. | 05-16-2013 |
20130122769 | METALIZED FIBROUS COMPOSITE SHEET WITH OLEFIN COATING - A composite sheet comprises a substrate and a multi-layer coating on its outer surface, the coating comprising a metal layer and an outer polymeric layer formed from a precursor comprising a polymerizable composition that includes a olefin group and a moisture curable group, such as an isocyanate or silane group. The function of the polymeric layer includes protecting the metal layer from corrosion. A production process for the composite sheet includes depositing the precursor and exposing it to both beam radiation and moisture, which respectively promote polymerization and curing at different sites of the precursor. The amenability of the isocyanate or silane functionality to moisture-promoted coupling promotes substantially full conversion and curing of the precursor, even of portions of the substrate that are geometrically shadowed from incident beam radiation. | 05-16-2013 |
20130167461 | METHOD FOR PRODUCING METALIZED FIBROUS COMPOSITE SHEET WITH OLEFIN COATING - A composite sheet is manufactured by depositing a multi-layer coating on the outer surface of a substrate, the coating comprising a metal layer and an outer polymeric layer formed from a precursor comprising a polymerizable composition that includes a olefin group and a moisture curable group, such as an isocyanate or silane group. After the precursor is applied, the composite sheet is exposed to beam radiation or plasma discharge, ozone, and moisture, which respectively promote polymerization and curing at different sites of the precursor. The function of the cured polymeric layer preferably includes protecting the metal layer from corrosion. The amenability of the isocyanate or silane functionality to moisture-promoted coupling promotes substantially full conversion and curing of the precursor, even of portions of the substrate that are geometrically shadowed from incident beam radiation. | 07-04-2013 |
20130171460 | METHOD FOR PRODUCING METALIZED FIBROUS COMPOSITE SHEET WITH OLEFIN COATING - A composite sheet is manufactured by depositing a multi-layer coating on the outer surface of a substrate, the coating comprising a metal layer and an outer polymeric layer formed from a precursor comprising a composition capable of being polymerized and/or cross-linked by free-radical processes. After the precursor is applied, the composite sheet is exposed to beam radiation and ozone, which both promote conversion of the precursor. The function of the cured polymeric layer includes protecting the metal layer from corrosion. The use of both beam radiation and ozone promotes substantially full conversion and curing of the precursor, even in portions of the substrate that are geometrically shadowed from incident beam radiation. | 07-04-2013 |
20130172456 | COPOLYESTER BLENDS WITH IMPROVED MELT STRENGTH - Blends comprising 65-95 wt % poly(trimethylene terephthalate-co-sebacate), 5 to 35 wt % polylactic acid and a chain extender are provided that exhibit greatly increased melt strength compared to that of poly(trimethylene terephthalate-co-sebacate) alone. Such improvements allow these compositions to be processed readily by melt-blowing, which is useful for packaging and for preparing items such as biodegradable garbage bags. | 07-04-2013 |
20130338260 | THERMOPLASTIC MELT-MIXED COMPOSITION WITH EPOXY-CARBOXYLIC ACID COMPOUND HEAT STABILIZER - Disclosed is a thermoplastic melt-mixed composition including: a) a semicrystalline polyamide resin; b) a polyepoxy compound including at least two or more epoxy groups; the polyepoxy compound having a number average molecular weight of less than 8000; one or more carboxylic acid compounds selected from the group consisting of polyacids, acid alcohols and combinations of these, the carboxylic acid compounds have a number average molecular weight of less than 2000; and optionally, d) reinforcing agent; e) polymeric toughener; and f) further additives. | 12-19-2013 |
20130338261 | THERMOPLASTIC MELT-MIXED COMPOSITION WITH AMINO ACID HEAT STABILIZER - Disclosed is a thermoplastic melt-mixed composition including: a) a polyamide resin; b) 0.50 to about 5.0 weight percent of one or more amino acid selected from the group consisting of primary amino acids and secondary amino adds; said amino add having no hydroxyl groups and no more than one carboxylic add; optionally, c) one or more polyepoxy compound including at least two or more epoxy groups; d) reinforcing agent; e) polymeric toughener; and f) further additives; wherein the weight percents of components a), b), c) d) e) and f) are based on the total weight of the thermoplastic melt-mixed composition. Also disclosed are processes for making the compositions. | 12-19-2013 |
20130338262 | THERMOPLASTIC MELT-MIXED COMPOSITION WITH EPOXY-AMINO ACID COMPOUND HEAT STABILIZER AND PROCESSES FOR THEIR PREPARATION - Disclosed is a thermoplastic melt-mixed composition including: a) a polyamide resin; b) a poly(amino acid)-polyol compound provided by reacting: b1) one or more amino acids selected from the group consisting of primary amino acids and secondary amino acids and combinations of these; the amino acid having no more than one hydroxyl group; and b2) one or more polyepoxy compound comprising at least two or more epoxy groups; the poly(amino acid)-polyol compound having a range of at least 10 percent conversion of epoxy equivalents of component (b1) up to, but excluding, the gel point of the components b1) and b2) and c) reinforcing agent; and, optionally, d) polymeric toughener; and f) further additives. Processes for making the composition are also disclosed. | 12-19-2013 |
20130338263 | THERMOPLASTIC MELT-MIXED COMPOSITION WITH POLYETHEROL HEAT STABILIZER - Disclosed is a thermoplastic melt-mixed composition including: a) a polyamide resin; b) a polyetherol compound provided by reacting: b1) one or more polyepoxy compound having at least two or more epoxy groups; and b2) one or more polyhydric alcohols having two or more hydroxyl groups; c) 10 to 60 weight percent of reinforcing agent; d) 0 to 30 weight percent polymeric toughener; and e) 0 to 10 weight percent further additives. Also disclosed are molded parts derived from the composition. | 12-19-2013 |
20130338274 | THERMOPLASTIC MELT-MIXED COMPOSITIONS WITH EPOXY-AMINE HEAT STABILIZER - Disclosed is a thermoplastic melt-mixed composition having a melt viscosity provided by melt-blending components including: a) a semi-crystalline polyamide resin having a melting point; b) one or more polyepoxy compound including at least two or more epoxy groups; c) one or more amino compounds selected from the group consisting polyamines and amino alcohols, and combinations of these, d) reinforcing agent; and optionally e) polymeric toughener; and f) further additives. Also disclosed are specific processes for preparing the thermoplastic compositions and molded parts derived from the thermoplastic compositions. | 12-19-2013 |
20130338301 | THERMOPLASTIC MELT-MIXED COMPOSITION WITH EPOXY-CARBOXYLIC ACID COMPOUND HEAT STABILIZER AND PROCESSES FOR THEIR PREPARATION - Disclosed is a thermoplastic melt-mixed composition including: a) a semicrystalline polyimide; h) a polyacid-polyol compound provided by reacting: b1) one or more polyepoxy compound including at least two or more epoxy groups; and b2) one or more carboxylic acid compounds selected from the group consisting of polyacids, acid alcohols and combinations of these; said polyacid-polyol compound having a range of at least 10 percent conversion of epoxy equivalents of component (b1) up to, but excluding, the gel point of the components b1) and b2); c) reinforcing agent; and optionally d) polymeric toughener; and e) further additives. Also discloses are processes for preparing the thermoplastic melt-mixed blends. | 12-19-2013 |
20140248499 | METALIZED FIBROUS COMPOSITE SHEET WITH OLEFIN COATING - A composite sheet comprises a substrate and a multi-layer coating on its outer surface, the coating comprising a metal layer and an outer polymeric layer formed from a precursor comprising a polymerizable composition that includes a olefin group and a moisture curable group, such as an isocyanate or silane group. The function of the polymeric layer includes protecting the metal layer from corrosion. A production process for the composite sheet includes depositing the precursor and exposing it to both beam radiation and moisture, which respectively promote polymerization and curing at different sites of the precursor. The amenability of the isocyanate or silane functionality to moisture-promoted coupling promotes substantially full conversion and curing of the precursor, even of portions of the substrate that are geometrically shadowed from incident beam radiation. | 09-04-2014 |