Patent application number | Description | Published |
20090252980 | GREASE-RESISTANT FILMS AND COATINGS - Compositions and methods for rendering a substrate more grease-resistant are disclosed. Treatments, such as aqueous-based treatments and/or emulsions, can be applied to the surface of a substrate, such as paper-based materials, which can be dried to form a treatment layer imparting grease resistant properties. In some instances, the treatment includes an acrylic-based polymer, which can impart grease-resistance, and one or more complementary components (e.g., a polymer and/or oligomer) that can make a layer less brittle (e.g., lowering the T | 10-08-2009 |
20100068960 | Compositions and Methods for Imparting Oil Repellency and/or Water Repellency - Compositions and methods for treating substrates, such as fibrous materials, are disclosed. Such compositions and methods can be used to impart or maintain a level of oil repellency and/or water repellency in fibrous substrates such as paper-based materials and/or textiles. In general, such compositions can utilize a copolymer having a plurality of polycationic segments, which can be joined by various other polymeric segments such as silicones and/or hydrophilic polymeric segments. The copolymer can be formulated as a highly-branched polymer, which can have substantivity to a fibrous material to impart oil repellency and/or water repellency. In several instances, the copolymer can be formulated to be fluorine-free. Various details of such copolymers are discussed, as well as methods of utilizing and making such copolymers. | 03-18-2010 |
20100098652 | Compositions and Methods for Treating Hair - Compositions and methods for treating hair are disclosed. Such compositions and methods can be used to modify hair properties, such as imparting and/or maintaining a level of softness or a conditioning effect on hair. In general, such compositions can utilize a copolymer having a plurality of polycationic segments, which can be joined by various other polymeric segments such as silicones and/or hydrophilic polymeric segments. The copolymer can be formulated as a highly-branched polymer, which can add substantivity to the hair to impart a conditioning effect. Various details of such copolymers are discussed, as well as methods of utilizing and making such copolymers. | 04-22-2010 |
20110083284 | Pigment Compositions for Hair Coloring - Compositions and methods relating to the use of pigment compositions are revealed, which can be used to impart color to hair. For instance, treatment formulations that include a pigment-functionalized cationic polymer can be utilized. In some particular instances, a plurality of serially applied treatment formulations is used to improve the characteristics of hair coloring. In addition, other formulations or treatments, such as one or more sealing compositions, or a final coating formulation can also be used to impart other desired characteristics such as treatment durability. Other components of various formulations/compositions are also discussed. Processes for using such compositions/formulations are disclosed. Along with the compositions, kits can be assembled where various compositions/formulations are compartmentalized for storage until the time for application. | 04-14-2011 |
20110084421 | Ultraphobic Compositions and Methods of Use - Compositions and methods are disclosed for imparting ultraphobicity to substrates. Ultraphobicity can be exhibited by superhydrophobicity, oleophobicity, or both. In some instances, techniques for imparting ultraphobicity can include the use of particles that are appropriately configured. For instance, the particles can be arranged to form a roughened surface that enhances and/or imparts ultraphobicity. In another instance, the particles can have surfaces that repel at least one of a oil-based liquid and a water-based liquid. For example, the particles can be attached to an ultraphobic-inducing composition (e.g., copolymer) that comprises at least one polyamine segment and a plurality of branch segments. Such particles can be mixed with a binder composition to form a coating or film for imparting the ultraphobic properties. Other embodiments are directed to other techniques that can also aid in imparting ultraphobicity. | 04-14-2011 |
20130310500 | PROCESS ENHANCEMENT VIA STIMULI RESPONSIVE PARTICLE SURFACES - Methods for enhancing the processing of a polymer composite are provided herein. in some embodiments, a method for enhancing the processing of a polymer composite may include masking a at least one functional group on a surface of a particle by using a at least one protective group; mixing the particles into a polymer to form a composite; processing the composite; and applying a at least one stimulus to the composite during the processing of the composite or after processing of the composite is complete in order to remove the at least one protective group from the functional group. | 11-21-2013 |
20150376304 | POLYMERIC MATERIALS WITH RESPONSIVE ADHESION AND/OR MECHANICAL PROPERTIES - Methods of adjusting the mechanical properties of a polymeric material may include forming a polymer network having a plurality of permanent cross-links and coupled to a plurality of reversible cross-links, wherein the polymer network has a shear storage modulus of greater than about 4×10 | 12-31-2015 |
20160030625 | POROUS POLYMER COMPOSITES - Porous polymer composites and methods of preparing porous polymer composites are provided herein. In some embodiments, a method for preparing porous polymer composites may include mixing a first polymer with a solvent and a particulate filler to form a first polymer composition, wherein the amount of particulate filler in the first polymer composition is below a mechanical percolation threshold; and removing the solvent from the first polymer composition to concentrate the first polymer and particulate filler into a second polymer composition having a porous structure, wherein the particulate filler concentration in the second polymer composition is increased above the mechanical percolation threshold during solvent removal. | 02-04-2016 |