| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 428396000 | Impregnation | 10 |
| 20090022990 | HEAT-RESISTANT CROSS-LINKING POLYESTER FIBER AND FIBER CORD - [Object]To prepare a polyester fiber and fiber cord having an excellent heat resistance which does not generate thermal melting at high temperature while properties such as dimensional stability, high strength and durability are maintained. To provide a material which is useful as a belt for tire and a carcass material. | 01-22-2009 |
| 20090233094 | RADIATION-CURING RESIN COMPOSITION AND PREPREG - A radiation-curing resin composition that includes a resin component that includes an epoxy resin and/or oxetane resin having a naphthalene structure or a biphenyl structure, a boron-based diaryliodonium salt polymerization initiator represented by a specific formula at 0.005 to 0.5 mol per kg of the resin component, and a viscosity adjusting agent, the resin composition having a viscosity at 50° C. of at least 50 Pa·s, and a prepreg obtained by impregnating a fiber reinforcement with such a resin composition. This resin composition has excellent reactivity, and a prepreg formed from this resin composition and a fiber reinforcement is used for producing a composite material/member suitable for the aerospace field in particular. | 09-17-2009 |
| 20090233095 | REINFORCEMENT FIBROUS CORD HAVING EXCELLENT ADHESIVE STRENGTH AND METHOD OF PRODUCING SAME - A reinforcement fibrous cord having excellent adhesive strength produced by impregnating a meshed cord fabric formed from warp yarns for reinforcement cords and weft yarns having a softening temperature or a melting temperature lower than any of the softening temperature, the melting temperature and the thermal decomposition-initiating temperature of the warp yarns, with adhesive agent, and heat-treating the fabric at the temperature equal to or higher than the softening or melting temperature of the weft yarn and lower than any of the softening temperature, the melting temperature and the thermal decomposition-initiating temperature of the warp yarns so that the weft yarns are self-broken while being fuse-adhered to the adhesive agent-impregnated warp yarns whereby projections caused by the broken residues of the weft yarns are formed on the warp yarns. | 09-17-2009 |
| 20100136335 | COMPOSITIONS AND METHODS FOR TREATING TEXTILE FIBERS - The present invention relates to compositions and methods for treating textile fibers and, in particular, to compositions and methods for treating fibers of carpet and other floor coverings. In one aspect, the present invention provides compositions and methods that can reduce energy consumption and conserve water resources in the production of dyed fibrous substrates having desirable repellency and stain resistant properties. | 06-03-2010 |
| 20100178506 | PROCESS FOR THE PRODUCTION OF MOLDINGS - Process for the production of a molding from particulate and/or fibrous substrates based on renewable raw materials and a formaldehyde-free, aqueous binder. | 07-15-2010 |
| 20100261014 | UTILIZATION OF RECYCLED CARBON FIBER - A molding head is especially adapted for vacuum molding or forming of structures and, in particular fibrous composite structures using recycled carbon fiber, in an adjustable, controllable three dimensional orientation before, during and after molding. Such a molding head includes a mold plate with narrow slots in the mold surface thereof and wider channels in the back surface thereof, with such slots and channels intersecting one another. A control system of servomotors or other actuators permits movement and orientation of the mold head during forming, thereby creating the ability to vary the material properties based on gravity and particle or suspension grain, thickness and other now controllable properties. | 10-14-2010 |
| 20110206931 | Composite Material and Method for Making - This invention relates to an improved method for making composite structures by dispersing a high tenacity fiber such as aramid in a polymeric matrix to form a premix, combining the premix with a natural fiber such as wood flour and extruding the resulting mixture through a fiber alignment plate and die such that the fibers are substantially aligned in the flow direction of the extrudate. | 08-25-2011 |
| 20130011678 | SILICA DOPED ALUMINOUS PARTICULATE MATERIALS - A particulate material includes an aluminous material and a silica dopant. The particulate material includes crystallite particles with a crystallite particle size of less than about 10 nm. The crystallite particles are stacked together to form primary particles with a primary particle size of less than about 500 nm. The primary particles are agglomerated together to form secondary particles with a secondary particle size of greater than about 1 μm. The particulate material has a mean pore diameter of not less than 8 nm. | 01-10-2013 |
| 20130101847 | DISPERSIONS OF HIGHER CRYSTALLINITY OLEFINS - Dispersions and methods for forming dispersions that include a higher crystallinity polyolefin and at least one dispersing agent are disclosed. Various applications for use of the dispersions are also disclosed. | 04-25-2013 |
| 20160159014 | COMPONENT MADE OF A FIBER COMPOSITE MATERIAL AND PROCESS FOR PRODUCING SAME - Fiber composite components can be formed by winding fibers along tracks of a winding spool of a winding core. The fibers may either be pre-coated with a curable resin, or the curable resin may be applied to the fibers after the fibers are wound along the tracks of the winding spool of the winding core. The curable resin may also and/or alternatively be applied to a mold that receives the fibers wound about the winding spool. The curable resin may then be cured, after which the winding spool and the winding core may be removed in order to release the fiber composite component. In some cases, the winding spool may be removed from the fiber composite component by moving the winding spool inwardly towards an inside of the winding core. | 06-09-2016 |
