Patents Assigned to SAPPI Netherlands Services B.V.
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Publication number: 20230313466Abstract: A process for improving the barrier properties of a barrier layer in a pulp-based substrate layer having a barrier layer, comprising the steps of providing a pulp-based substrate layer having a layer of an aqueous barrier composition applied to it, and then drying the pulp-based substrate layer having a layer of aqueous barrier composition applied to it to form a pulp-based substrate layer having a barrier layer, such that the moisture content of the pulp-based substrate layer having a barrier layer is below 2.5% by weight, preferably below 2% by weight, based on the weight of the pulp-based substrate layer having a barrier layer.Type: ApplicationFiled: June 23, 2021Publication date: October 5, 2023Applicant: SAPPI Netherlands Services B.V.Inventors: Gustavo DUARTE, Vera LOURENCO, Mario HOLZLECHNER, Jo SIMONS
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Publication number: 20220403123Abstract: The invention relates to an injection-molding composition comprising at least one polyolefin, at least one delignified wood pulp fiber, at least one maleic anhydride-grafted polyolefin and at least one metal oxide chosen from oxides of alkaline earth metals or of zinc.Type: ApplicationFiled: November 17, 2020Publication date: December 22, 2022Applicant: SAPPI Netherlands Services B.V.Inventors: Michaƫl ALEXANDRE, Ana Luisa MATOS VAZ, Tina CELA
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Patent number: 11485797Abstract: The present invention provides a method for the production of chemically derivatized nanocellulose, comprising the step of a. contacting a precursor cellulosic material with a chemically derivatizing composition to form a liquid reaction mixture, and b. chemically reacting the formed liquid reaction mixture, and c. subjecting the formed liquid reaction mixture to microfluidisation, wherein the steps b. and c. are carried out simultaneously.Type: GrantFiled: May 23, 2017Date of Patent: November 1, 2022Assignee: SAPPI Netherlands Services B.V.Inventors: Rhodri Williams, Robert English, John Heaton
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Publication number: 20220275577Abstract: A process for producing surface modified bleached chemical pulp fiber comprising fluidizing the bleached chemical pulp fiber and contacting the fluidized bleached chemical pulp fiber with an aerosol of a surface modifying composition comprising a surface modifying compoundType: ApplicationFiled: July 13, 2020Publication date: September 1, 2022Applicant: SAPPI Netherlands Services B.V.Inventor: Wim BALLET
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Patent number: 11141885Abstract: A process for producing a precursor material comprising the steps of, agitating a polymer material and a fibre material in a blending device comprising a blending means operating at a velocity sufficient to bring about an increase of the temperature to at least a temperature beyond the VI CAT softening point or within or beyond the melting temperature range of the polymer material. Thereafter, maintaining the velocity of the blending means and, when the specific motor power needed to maintain the velocity of the blending means increases by a predetermined amount or reaches a predetermined value, reducing the velocity. Repeating the previous step as necessary, until the velocity falls below a first threshold value to form an intermediate material. Finally, comminuting the formed intermediate material in a comminuting device comprising a comminuting means operating at a velocity allowing a decrease in temperature, until the temperature falls below a second threshold value.Type: GrantFiled: December 5, 2016Date of Patent: October 12, 2021Assignee: SAPPI Netherlands Services B.V.Inventors: Sandra Hendrix, Wim Ballet, Lucile Maletras
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Publication number: 20200317821Abstract: The present invention provides a method for the production of chemically derivatized nanocellulose, comprising the step of a. contacting a precursor cellulosic material with a chemically derivatizing composition to form a liquid reaction mixture, and b. chemically reacting the formed liquid reaction mixture, and c. subjecting the formed liquid reaction mixture to microfluidisation, wherein the steps b. and c. are carried out simultaneously.Type: ApplicationFiled: May 23, 2017Publication date: October 8, 2020Applicant: SAPPI Netherlands Services B.V.Inventors: Rhodri WILLIAMS, Robert ENGLISH, John HEATON
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Publication number: 20200248405Abstract: A process for reducing the overall energy consumption in the production of nanocellulose dispersions from a base cellulosic material wherein said process comprises an intermediate step reducing the overall energy consumption by at least 50% when compared to a process lacking said intermediate step.Type: ApplicationFiled: December 5, 2016Publication date: August 6, 2020Applicant: SAPPI Netherlands Services B.V.Inventors: Saschi MOMIN, Adrianus Johannes Ernst JANSEN
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Patent number: 10669384Abstract: The present invention provides for a process for producing dry, water-dispersible, non-surface modified nanocellulose particles or a powderous composition r comprising said particles comprising the steps of: i. providing a first suspension of non-surface modified cellulose particles in an first aqueous liquid, which aqueous liquid is non-solubilizing for the non-surface modified nanocellulose particles, ii. exchanging substantially all of the first aqueous liquid of the first suspension for a second solvent, which is miscible with the first aqueous liquid and non-solubilizing for the non-surface modified nanocellulose particles, to form a second suspension of non-surface modified nanocellulose particles in said second solvent, iii.Type: GrantFiled: September 26, 2016Date of Patent: June 2, 2020Assignee: SAPPI Netherlands Services B.V.Inventors: Reyes Menendez Gonzalez, Daniela Oana Trambitas, Seda Cantekin, Ian Graveson, Math Jennekens, Saschi Momin
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Publication number: 20190263975Abstract: A process for producing non-surface modified nanocellulose particles in the form of a powder, comprising the steps of i. providing a suspension of never-dried, non-surface modified nanocellulose particles in an aqueous liquid, which is non-solubilising for the non-surface modified nanocellulose particles, and which is water or an aqueous solution of morpholine or piperidine or mixtures thereof, ii. contacting the suspension of non-surface modified nanocellulose particles with a fluid in a supercritical state, which fluid is miscible with the aqueous liquid and is non-solubilising for the non-surface modified nanocellulose particles, under conditions suitable for the transfer of the aqueous liquid into the fluid in a supercritical state, iii. removing the aqueous liquid and the fluid in a supercritical state by controlling pressure and/or temperature, to form the non-surface modified nanocellulose particles, and iv.Type: ApplicationFiled: November 7, 2017Publication date: August 29, 2019Applicant: SAPPI Netherlands Services B.V.Inventors: Math JENNEKENS, Daniela Oana TRAMBITAS, Tjerk Jan DE VRIES
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Publication number: 20190002591Abstract: A process for the preparation of particulate acylated biopolymer comprising anhydroglucose units that comprises several steps. First, dispersing an amount of particulate non-surface modified biopolymer comprising anhydroglucose units in an amount of a liquid alkenyl carboxylatein order to form a first dispersion. Then, adding a catalytic composition to the first dispersion such a to form a second dispersion, heating the second dispersion to a temperature above ambient temperature, and cooling the second dispersion to ambient temperature. Thereafter, the obtained particulate acylated biopolymer is isolated. The amount of a liquid alkenyl carboxylate corresponds to a molar excess of alkenyl carboxylate, the molar excess being defined with respect to the moles of anhydroglucose units comprised in the amount of the particulate non-surface modified biopolymer. The catalytic composition comprises an amount of one, or two or more, non-nucleophilic bases.Type: ApplicationFiled: December 19, 2016Publication date: January 3, 2019Applicant: SAPPI Netherlands Services B.V.Inventors: Robert ENGLISH, Ian GRAVESON, Saschi MOMIN, Nadege FERLIN
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Publication number: 20180361622Abstract: A process for producing a precursor material comprising the steps of, agitating a polymer material and a fibre material in a blending device comprising a blending means operating at a velocity sufficient to bring about an increase of the temperature to at least a temperature beyond the VI CAT softening point or within or beyond the melting temperature range of the polymer material. Thereafter, maintaining the velocity of the blending means and, when the specific motor power needed to maintain the velocity of the blending means increases by a predetermined amount or reaches a predetermined value, reducing the velocity. Repeating the previous step as necessary, until the velocity falls below a first threshold value to form an intermediate material. Finally, comminuting the formed intermediate material in a comminuting device comprising a comminuting means operating at a velocity allowing a decrease in temperature, until the temperature falls below a second threshold value.Type: ApplicationFiled: December 5, 2016Publication date: December 20, 2018Applicant: SAPPI Netherlands Services B.V.Inventors: Sandra HENDRIX, Wim BALLET, Lucile MALETRAS
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Publication number: 20180362735Abstract: The present invention provides for a dispersion containing cellulose particles dispersed in a continuous liquid phase comprising a first and a second continuous liquid phase, wherein the first continuous liquid phase consists of a liquid swelling agent or an aqueous solution of said liquid swelling agent, and the second continuous liquid phase comprises, preferably consists of, one or more organic solvents, with the proviso that the one or more organic solvents of the second continuous liquid phase are not capable of dissolving cellulose, have a boiling point higher than the boiling point of the first continuous liquid phase, and are miscible with the constituents of the swelling composition.Type: ApplicationFiled: June 16, 2016Publication date: December 20, 2018Applicant: SAPPI Netherlands Services B.V.Inventors: Wim BALLET, Seda CANTEKIN, Gustavo DUARTE, Saschi MOMIN, Jo SIMONS
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Publication number: 20180282490Abstract: The present invention provides for a process for producing dry, water-dispersible, non-surface modified nanocellulose particles or a powderous composition r comprising said particles comprising the steps of: i. providing a first suspension of non-surface modified cellulose particles in an first aqueous liquid, which aqueous liquid is non-solubilizing for the non-surface modified nanocellulose particles, ii. exchanging substantially all of the first aqueous liquid of the first suspension for a second solvent, which is miscible with the first aqueous liquid and non-solubilizing for the non-surface modified nanocellulose particles, to form a second suspension of non-surface modified nanocellulose particles in said second solvent, iii.Type: ApplicationFiled: September 26, 2016Publication date: October 4, 2018Applicant: SAPPI Netherlands Services B.V.Inventors: Reyes MENENDEZ GONZALEZ, Daniela Oana TRAMBITAS, Seda CANTEKIN, Ian GRAVESON, Math JENNEKENS, Saschi MOMIN
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Patent number: 9512543Abstract: A method for the spinning of a fiber comprising cellulose nano-fibrils aligned along the main axis of the fiber from a lyotropic suspension of cellulose nano-fibrils, the nano-fibril alignment being achieved through extension of the extrude fiber from a die, spinneret or needle, wherein the fiber is dried under extension and the aligned nano-fibrils aggregate to form a continuous structure and wherein the suspension of nano-fibrils, which has a concentration of solids of at least 7% wt, is homogenized using at least a mechanical, distributive mixing process prior to its extrusion. The fibrils used in this method can be extracted from a cellulose-rich material such as wood. The invention also related to a cellulose-based fiber obtained according to this method and to a cellulose fiber which contains at least 90% wt of crystallized cellulose.Type: GrantFiled: April 12, 2011Date of Patent: December 6, 2016Assignee: SAPPI Netherlands Services B.V.Inventors: Philip Turner, Zurine Hernandez, Callum Hill
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Patent number: 9371401Abstract: A low energy method for the preparation of nanocellulose using selected organic or inorganic swelling agents. The use of these swelling agents allows opening up the intercrystalline structure and partially the intracrystalline structure of cellulosic materials thereby achieving a reduction 5 in the energy required to subsequently process the resultant swollen cellulose material into nanocellulose.Type: GrantFiled: July 12, 2013Date of Patent: June 21, 2016Assignee: SAPPI Netherlands Services B.V.Inventors: Ian Graveson, Robert English
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Patent number: 9187848Abstract: The present invention is directed towards a method for spinning anionically modified cellulose comprising the steps of: (a) preparing a suspension of the anionically modified cellulose in a continuous phase; (b) subjecting the suspension to high shear rate; (c) performing spinning by extruding the cellulose suspension through a spinneret into a spinbath comprising a cationic complexing agent, and (d) isolating the sun fibers from the spin bath; as well as fibers obtained based on the method of the invention and paper or board products derived from such fibers.Type: GrantFiled: March 8, 2012Date of Patent: November 17, 2015Assignee: SAPPI Netherlands Services B.V.Inventor: Ian Graveson
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Patent number: 9121111Abstract: A method for the spinning of a fiber comprising cellulose nano-fibrils being aligned along the main axis of the fiber from a lyotropic suspension of cellulose nano-fibrils, said nano-fibril alignment being achieved through extension of the extruded fiber from a die, spinneret or needle, wherein said fiber is dried under extension and the aligned nano-fibrils aggregate to form a continuous structure. The fibrils used in this method can be extracted from a cellulose-rich material such as wood. The invention also related to a cellulose-based fiber obtained according to this method and to a cellulose fiber which contains at least 90% wt of crystallized cellulose.Type: GrantFiled: October 9, 2009Date of Patent: September 1, 2015Assignee: SAPPI Netherlands Services B.V.Inventors: Philip Turner, Zurine Hernandez, Callum Hill
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Patent number: 9103069Abstract: The present invention is directed towards a method for spinning neutral or anionically modified cellulose comprising the steps of: (a) preparing a suspension of the neutral or anionically modified cellulose in a continuous phase; (b) subjecting the suspension to high shear rate; (c) performing spinning by extruding the cellulose suspension into an airgap region comprising at least one heated zone to obtain spun fibers, (d) subjecting the spun fibers to at least one washing stages and (e) isolating the spun fibers from the at least one washing stages; as well as fibers obtained based on the method of the invention and paper or board products derived from such fibers.Type: GrantFiled: March 8, 2012Date of Patent: August 11, 2015Assignee: SAPPI Netherlands Services B.V.Inventors: Ian Graveson, Philip Turner
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Publication number: 20150158955Abstract: A low energy method for the preparation of nanocellulose using selected organic or inorganic swelling agents. The use of these swelling agents allows opening up the intercrystalline structure and partially the intracrystalline structure of cellulosic materials thereby achieving a reduction 5 in the energy required to subsequently process the resultant swollen cellulose material into nanocellulose.Type: ApplicationFiled: July 12, 2013Publication date: June 11, 2015Applicant: SAPPI NETHERLANDS SERVICES B.V.Inventors: Ian Graveson, Robert English
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Patent number: 8785158Abstract: The invention relates to a method for dissolving cellulose e.g. for the production of regenerated cellulose products such as films, fibers, particles and the like. In said method, the cellulose material is dissolved using an enzymatic treatment, followed by a base treatment. The invention is also directed to a method for producing cellulose particles wherein cellulose dissolved as described above is sprayed or mixed into a regenerating solution for precipitating cellulose particles. Moreover, the invention relates to the use of said cellulose particles produced with this method as a filler and/or coating pigment of paper and board. The invention is also directed to methods for producing and coating paper and board.Type: GrantFiled: June 27, 2006Date of Patent: July 22, 2014Assignee: Sappi Netherlands Services B.V.Inventors: Kimmo Koivunen, Petri Silenius, Janne Laine, Tapani Vuorinen