Patents by Inventor Pamela DE MARTINO
Pamela DE MARTINO has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
-
Patent number: 11834367Abstract: An optical fibre comprising: an optical waveguide comprising a glass core surrounded by a glass cladding; a coating surrounding said optical waveguide comprising a polymer material comprising a cured polyester obtained by: (a) esterification of a reactant (A) selected from carboxylic acids, triglycerides, and mixtures thereof, having a C16-C24 aliphatic chain comprising at least two conjugated double bonds, with a reactant (B) selected from polyols having at least 3 hydroxyl groups, the polyols being thermally stable up to 300° C.; (b) curing of the 10 so obtained polyester, in the presence of a transition metal salt, the transition metal being selected from Mn, Fe, Co, Cu, and Ni. Preferably, the step of curing is a thermal curing, preferably up to 300° C. The transition metal salt acts as curing accelerator, i.e.Type: GrantFiled: January 19, 2018Date of Patent: December 5, 2023Assignees: Prysmian S.P.A., Politecnico di MilanoInventors: Lidia Terruzzi, Pamela De Martino, Attilio Citterio, Massimo Gola
-
Patent number: 11396476Abstract: The present invention concerns an optical fibre comprising: an optical waveguide comprising a glass core surrounded by a glass cladding; a coating surrounding said optical waveguide comprising a cured polymer material comprising a polyester obtained by esterification of: a reactant A selected from an acid, a triglyceride, or a mixture of triglycerides having a C16-C24 aliphatic chain comprising at least two conjugated double bonds; and a polyol made of at least one monomer comprising at least 3 hydroxyl groups, the polyol being thermally stable up to 300° C. (reactant B). The present invention concerns also the above said polyester coating, a method for coating an optical fibre with said polyester coating and a method for obtaining predetermined mechanical properties of a coating for an optical fibre. The cured polymer forming the coating can be prepared by curing the polyester of the invention either thermally or by radiation.Type: GrantFiled: July 22, 2016Date of Patent: July 26, 2022Assignees: PRYSMIAN S.p.A., POLITECNICO DI MILANOInventors: Lidia Terruzzi, Pamela De Martino, Attilio Citterio, Massimo Gola
-
Publication number: 20210094875Abstract: An optical fibre comprising: an optical waveguide comprising a glass core surrounded by a glass cladding; a coating surrounding said optical waveguide comprising a polymer material comprising a cured polyester obtained by: (a) esterification of a reactant (A) selected from carboxylic acids, triglycerides, and mixtures thereof, having a C16-C24 aliphatic chain comprising at least two conjugated double bonds, with a reactant (B) selected from polyols having at least 3 hydroxyl groups, the polyols being thermally stable up to 300° C.; (b) curing of the 10 so obtained polyester, in the presence of a transition metal salt, the transition metal being selected from Mn, Fe, Co, Cu, and Ni. Preferably, the step of curing is a thermal curing, preferably up to 300° C. The transition metal salt acts as curing accelerator, i.e.Type: ApplicationFiled: January 19, 2018Publication date: April 1, 2021Applicants: Prysmian S.P.A., Politecnico Di MilanoInventors: Lidia TERRUZZI, Pamela DE MARTINO, Attilio CITTERIO, Massimo GOLA
-
Patent number: 10775556Abstract: An optical fibre comprising: an optical waveguide comprising a glass core surrounded by a glass cladding; a primary coating surrounding the optical waveguide; a secondary coating, surrounding the primary coating, comprising a cured polymer material obtained by curing a curable coating composition comprising: (a) a polyester obtained by esterification of a reactant A selected from carboxylic acids, triglycerides, and mixtures thereof, having a C16-C24 aliphatic chain comprising at least two double bonds spaced by one carbon atom at most, with a reactant B selected from polyols having at least 3 hydroxyl groups, the polyols being thermally stable up to 300° C.; (b) an aromatic glycidyl epoxy resin; (c) an aliphatic polyether hardener containing from 8 to 64 hydroxy groups and/or from 2 to 4 epoxy groups; and (d) a secondary amine compound as curing agent. Preferably, the step of curing is a thermal curing, preferably up to 300° C.Type: GrantFiled: September 17, 2019Date of Patent: September 15, 2020Assignees: PEYSMIAN S.p.A., POLITECNICO DI MILANOInventors: Lidia Terruzzi, Pamela De Martino, Attilio Citterio, Massimo Gola
-
Patent number: 10598881Abstract: An optical fibre comprising: an optical waveguide comprising a core surrounded by a cladding; a primary coating surrounding the optical waveguide; and a coating, surrounding the primary coating, comprising a polymer material obtained by radiation curing a polymerizable composition, the polymer material having a degree of crystallinity of at most 12. The coating of the optical fiber according to the present invention exhibits enhanced resistance upon exposure to high temperature, preferably a temperature over 250° C., while endowed with required features such as protective capability, elasticity, adhesion to underlying layer and simple manufacturing.Type: GrantFiled: December 16, 2015Date of Patent: March 24, 2020Assignees: PRYSMIAN S.p.A, POLITECNICO DI MILANOInventors: Lidia Terruzzi, Pamela De Martino, Attilio Citterio
-
Publication number: 20200088937Abstract: An optical fibre comprising: an optical waveguide comprising a glass core surrounded by a glass cladding; a primary coating surrounding the optical waveguide; a secondary coating, surrounding the primary coating, comprising a cured polymer material obtained by curing a curable coating composition comprising: (a) a polyester obtained by esterification of a reactant A selected from carboxylic acids, triglycerides, and mixtures thereof, having a C16-C24 aliphatic chain comprising at least two double bonds spaced by one carbon atom at most, with a reactant B selected from polyols having at least 3 hydroxyl groups, the polyols being thermally stable up to 300° C.; (b) an aromatic glycidyl epoxy resin; (c) an aliphatic polyether hardener containing from 8 to 64 hydroxy groups and/or from 2 to 4 epoxy groups; and (d) a secondary amine compound as curing agent. Preferably, the step of curing is a thermal curing, preferably up to 300° C.Type: ApplicationFiled: September 17, 2019Publication date: March 19, 2020Applicants: PRYSMIAN S.p.A., POLITECNICO DI MILANOInventors: Lidia TERRUZZI, Pamela DE MARTINO, Attilio CITTERIO, Massimo GOLA
-
Publication number: 20190233330Abstract: The present invention concerns an optical fibre comprising: an optical waveguide comprising a glass core surrounded by a glass cladding; a coating surrounding said optical waveguide comprising a cured polymer material comprising a polyester obtained by esterification of: a reactant A selected from an acid, a triglyceride, or a mixture of triglycerides having a C16-C24 aliphatic chain comprising at least two conjugated double bonds; and a polyol made of at least one monomer comprising at least 3 hydroxyl groups, the polyol being thermally stable up to 300° C. (reactant B). The present invention concerns also the above said polyester coating, a method for coating an optical fibre with said polyester coating and a method for obtaining predetermined mechanical properties of a coating for an optical fibre. The cured polymer forming the coating can be prepared by curing the polyester of the invention either thermally or by radiation.Type: ApplicationFiled: July 22, 2016Publication date: August 1, 2019Applicants: PRYSMIAN S.p.A., POLITECNICO Dl MILANOInventors: Lidia TERRUZZI, Pamela DE MARTINO, Attilio CITTERIO, Massimo GOLA
-
Publication number: 20190227227Abstract: The present invention concerns an optical fibre comprising: an optical waveguide comprising a glass core surrounded by a glass cladding; a coating surrounding said optical waveguide comprising a cured polymer material comprising a polyester obtained by polymerization of a monomer selected from an acid, a triglyceride, or a mixture of triglycerides having a C16-C24 aliphatic chain comprising at least two conjugated double bonds. The present invention concerns also a method for coating an optical fibre with said polyester coating. The cured polymer material forming the coating can be prepared by curing the polyester of the invention either thermally or by radiation.Type: ApplicationFiled: September 9, 2016Publication date: July 25, 2019Applicants: PRYSMIAN S.p.A., POLITECNICO DI MILANOInventors: Lidia TERRUZZI, Pamela DE MARTINO, Attilio CITTERIO, Massimo GOLA
-
Patent number: 10217546Abstract: A power cable having a metallic electrical conductor surrounded by one or more semiconductive layer and more or more insulating layer, wherein the cable has at least one metallic element made of aluminum, having a corrosion inhibitor provided in direct contact with the at least one metallic element made of aluminum.Type: GrantFiled: September 25, 2015Date of Patent: February 26, 2019Assignees: PRYSMIAN S.p.A., POLITECNICO DI MILANOInventors: Pamela De Martino, Ehsan Fallahmohammadi, Attilio Citterio, Lidia Terruzzi
-
Publication number: 20180372971Abstract: An optical fibre comprising: an optical waveguide comprising a core surrounded by a cladding; a primary coating surrounding the optical waveguide; and a coating, surrounding the primary coating, comprising a polymer material obtained by radiation curing a polymerizable composition, the polymer material having a degree of crystallinity of at most 12. The coating of the optical fiber according to the present invention exhibits enhanced resistance upon exposure to high temperature, preferably a temperature over 250° C., while endowed with required features such as protective capability, elasticity, adhesion to underlying layer and simple manufacturing.Type: ApplicationFiled: December 16, 2015Publication date: December 27, 2018Inventors: Lidia Terruzzi, Pamela De Martino, Attilio Citterio
-
Publication number: 20180254123Abstract: The present invention relates to a power cable comprising a metallic electric conductor surrounded by one or more semiconductive layer and one or more insulating layer, said cable having at least one metallic element made of aluminium, wherein a corrosion inhibitor is provided in direct contact with said at least one metallic element made of aluminium, and wherein said corrosion inhibitor is a corrosion inhibitor of formula (I).Type: ApplicationFiled: September 25, 2015Publication date: September 6, 2018Applicants: PRYSMIAN S.p.A., POLITECNICO DI MILANOInventors: Pamela DE MARTINO, Ehsan FALLAHMOHAMMADI, Attilio CITTERIO, Lidia TERRUZZI