| Patent application number | Description | Published |
|---|
| 20080234476 | POLYSACCHARIDE DERIVATIVES AND STRUCTURES EMPLOYING SAME - Polysaccharide derivatives, more particularly heteropolysaccharide derivatives, especially hemicellulose derivatives, methods for making same and structures employing same are provided. | 09-25-2008 |
| 20100044627 | THERMOPLASTIC HETEROPOLYSACCHARIDE DERIVATIVES AND METHODS FOR MAKING SAME - Thermoplastic heteropolysaccharide derivatives, articles employing such thermoplastic heteropolysaccharide derivatives and methods for making such thermoplastic heteropolysaccharide derivatives are provided. | 02-25-2010 |
| 20100190969 | NON-NATURALLY OCCURRING CARBOHYDRATE-BASED FIBROUS ELEMENTS AND METHODS FOR MAKING SAME - Non-naturally occurring carbohydrate-based fibrous elements and more particularly, non-naturally occurring carbohydrate-based fibrous elements having a macrostructure and a microstructure wherein the microstructure is visible when wet and methods for making same are provided. | 07-29-2010 |
| 20110139389 | PAPERMAKING BELT - Papermaking belts and more particularly to papermaking belts that employ a porous member and a polymer associated with the porous member, processes for making such papermaking belts and processes for making a paper web utilizing such papermaking belts are provided. | 06-16-2011 |
| 20110139390 | PAPERMAKING BELT - Papermaking belts and more particularly to papermaking belts that employ a porous member and a polymer associated with the porous member, processes for making such papermaking belts and processes for making a paper web utilizing such papermaking belts are provided. | 06-16-2011 |
| 20110220310 | ABSORBENT ARTICLE COMPRISING A FIBROUS STRUCTURE COMPRISING SYNTHETIC FIBERS AND A HYDROPHILIZING AGENT - An absorbent article comprising a nonwoven fibrous structure comprising a plurality of synthetic fibers. The synthetic fibers may be associated with one or more hydrophilizing agents. A process for making the nonwoven fibrous structure involves association of the synthetic fibers with one or more hydrophilizing agents. | 09-15-2011 |
| 20110265966 | PAPERMAKING BELT HAVING A PERMEABLE REINFORCING STRUCTURE - A papermaking belt having an embryonic web contacting surface for carrying an embryonic web of paper fibers and a non-embryonic web contacting surface opposite said embryonic web contacting surface is disclosed. The papermaking belt comprises a reinforcing structure having a patterned framework disposed thereon. The patterned framework has a continuous network region and a plurality of discrete deflection conduits. The deflection conduits are isolated one from another by the continuous network region. A plurality of pores is randomly disposed within the continuous network region. The pores have one opening disposed upon the embryonic web contacting surface and one opening disposed upon the non-embryonic web contacting surface. Each of the pores provides at least one pathway between the embryonic web contacting surface and the non-embryonic web contacting surface. | 11-03-2011 |
| 20110265967 | PAPERMAKING BELT HAVING INCREASED DE-WATERING CAPABILITY - A papermaking belt for carrying an embryonic web of paper fibers is disclosed. The papermaking belt has an embryonic web contacting surface and a non-embryonic web contacting surface opposite thereto. The papermaking belt also has a reinforcing structure having a patterned framework disposed thereon and a plurality of non-random distinct pores disposed within the continuous network region. The patterned framework has a continuous network region and a plurality of discrete deflection conduits. The deflection conduits are isolated one from another by the continuous network region. Each of the pores has an opening disposed at a predetermined location upon the embryonic web contacting surface and an opening disposed at a predetermined location upon the non-embryonic web contacting surface. Each of the pores defines a single pathway between the embryonic web contacting surface and the non-embryonic web contacting surface. | 11-03-2011 |
