| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 106162500 | With lignocellulosic material (i.e., mixture of a lignocellulosic material and a carbohydrate material which is other than a lignocellulosic material or a component thereof) | 11 |
| 20090272292 | LIGNOCELLULOSIC PRODUCTS AND METHODS FOR THEIR MANUFACTURE - Disclosed are methods for improving the water resistance of a lignocellulosic composite product prepared by mixing lignocellulosic material with a binder to form a mixture and solidifying the mixture in a selected configuration to form the composite product comprises adding to the mixture an emulsion including a wax component comprising a nonsaponifiable wax and a saponified wax, an alkyl phenol component comprising a C | 11-05-2009 |
| 20120037039 | PULLULAN REPLACEMENTS FOR FILMS AND COATINGS - This disclosure relates generally to materials configured to replace pullulan and pullulan functionalities and their use in applications such as edible films, coatings, breath or flavor strips, tablet coatings, gel caps, tobacco products, films for cheese or spice flavor delivery, films as barriers in food products, and non food products including industrial, personal care and pharmaceutical products. In addition, the materials and methods disclosed herein are configured for use in similar products that do not incorporate pullulan but would benefit from pullulan-like properties and functionalities. | 02-16-2012 |
| 20130206035 | Composite Polymer - A composition comprising 10 to 50 weight % wood pulp fiber and 45 to 85 wt % thermoplastic polymer wherein the composition has a brightness of at least 20 as measured by the Brightness Test. The wood pulp fiber can be bleached chemical wood pulp fiber. The brightness may be at least 30 as measured by the Brightness Test. | 08-15-2013 |
| 20130206036 | Composite Polymer - A composition comprising 10 to 50 wt % wood pulp fiber and 45 to 85 wt % thermoplastic polymer wherein the average dispersion of the fibers within the thermoplastic polymer composition is equal to or greater than 90% as determined by the Dispersion Test. The pulp can be bleached chemical wood pulp fiber. | 08-15-2013 |
| 20130276670 | Process for Making Composite Polymer - In the process of forming a wood pulp fiber and thermoplastic polymer composition the step of adding mineral oil to the composition during mixing. | 10-24-2013 |
| 20140090577 | METHODS FOR MAKING LIGNOCELLULOSE CONTAINING COMPOSITE PRODUCTS - Methods for making composite products are provided. In at least one specific embodiment, the method can include combining a plurality of lignocellulose substrates and one or more free radical precursors to produce a mixture of the lignocellulose substrates and the one or more free radical precursors. The method can also include maintaining the mixture at a temperature less than 60° C. for at least 10 minutes while retaining at least 11 wt % of the one or more free radical precursors charged to the mixture. The method can then include heating the mixture comprising at least 11 wt % of the one or more free radical precursors charged to the mixture to a temperature of at least 60° C. to about 300° C. to produce a composite product. The composite product can have a density less than 1 g/cm | 04-03-2014 |
| 20150033983 | COMPOSITE BUILDING PRODUCTS BOUND WITH CELLULOSE NANOFIBERS - Building materials are generated by the simple mixing of cellulose nanofiber (CNF) slurry with typical wood-derived material such as wood meal, optionally with mineral particulate materials, and dried. Particle boards are made with wood meal particulates; wallboards are made with wood particulates and mineral particulates; paints are made with pigment particulates; and cement is made with aggregate particulates. The particle board samples were tested for fracture toughness. The fracture toughness was found to be from 20% higher up to ten times higher than the typical value for similar board, depending on the formulation. For cases of 20% by weight cellulose nanofibers and 80% wood, the fracture toughness was more than double that of typical particle board. The process sequesters carbon and oxygen into the building product for its lifespan—typically decades—and avoid releasing CO | 02-05-2015 |
| 20160168362 | Biodegradable Composition Using Cellulose And Preparation Method Therefor, And Waterproof Agent And Molded Product Using Composition | 06-16-2016 |
| 20160177066 | Manufacturing Materials from Wastewater Effluent | 06-23-2016 |
| 106162510 | The carbohydrate is starch | 2 |
| 20130199408 | Homogeneous Biodegradable Mixture for Shaped-Bodies: Method for Preparing - The method for preparing a homogeneous biodegradable mixture is described for production of shape-bodies. Reinforce fillers are fibers from various natural sources especially those wastes from varieties of manufacturing. Long thin fibers are obtained by longitudinal abrasion of bamboo waste. Boiling the fibers in water for 20 minutes at pH 8 where supernatant is decanted helps getting rid of chlorophyll. Fibers are further ground to preferable length of 2-4 mm. The treated fibers were mixed with all other ingredients in a rotor, spinning at a speed 1,800-2,000 rpm at ambient temperature for 510 minutes. Starch particles and other ingredients penetrate and mix thoroughly with the fibrous materials. Water is gradually added while kneading to form a perfect dough ready for manufacturing of the desired shape bodies. | 08-08-2013 |
| 20220135803 | MATERIAL COMPOSITION FOR 3D-PRINTING OF PLANT-BASED FIBERS - The present invention is for a material composition based on plant fibers, which can be used for | 05-05-2022 |
