Patent application number | Description | Published |
20130068407 | VOLATILE DEBONDER FORMULATIONS FOR PAPERMAKING - Formulations and methods for papermaking are disclosed herein using one or more volatile debonders, where the volatile debonder forms a solution or an emulsion with water in a paper precursor, and where the volatile debonder is evaporable from the paper precursor before the paper precursor is completely dried to form a paper sheet during papermaking. Two volatile debonders having different boiling points can be used, where they are miscible in water and in each other, and where one volatile debonder has a higher molecular weight and the other volatile debonder has a lower boiling point. | 03-21-2013 |
20130160958 | BULK AND STIFFNESS ENHANCEMENT IN PAPERMAKING - The present invention provides formulations for papermaking and methods for their use. In embodiments, the formulations include a treatment agent and a fluid carrier, where the treatment agent includes a volatile debonder or a polymer composition exhibiting a lower critical solution temperature. Methods for treating a paper product to increase its bulk or its stiffness are also disclosed, in addition to paper products formed from such methods. | 06-27-2013 |
20130248132 | VOLATILE DEBONDER FORMULATIONS FOR PAPERMAKING - Formulations and methods for papermaking are disclosed herein using one or more volatile debonders, where the volatile debonder forms a solution or an emulsion with water in a paper precursor, and where the volatile debonder is evaporable from the paper precursor before the paper precursor is completely dried to form a paper sheet during papermaking. Two volatile debonders having different boiling points can be used, where they are miscible in water and in each other, and where one volatile debonder has a higher molecular weight and the other volatile debonder has a lower boiling point. | 09-26-2013 |
20140106964 | SEED COATING FORMULATION SYSTEMS - The present invention provides seed coating systems and methods for their use, where a seed coating system comprises encapsulated active ingredient particles that comprise an active ingredient and an encapsulation layer with a preselected release profile, and a polymeric seed coating, wherein the polymeric seed coating releasably affixes the encapsulated active ingredient particle in proximity to a surface of a seed. In embodiments, the seed coating system comprises a plurality of active ingredient layers, wherein a first active ingredient layer comprises a first encapsulated active ingredient, wherein the first encapsulated active ingredient is encapsulated in a first polymer, and wherein the polymer comprises a first binding site that binds the active ingredient and a second binding site for binding to a delivery area, and a binder to releasably affix the encapsulated active ingredient to at least one of a seed surface or a second active ingredient layer, and wherein a second active ingredient layer comprises a second encapsulated active ingredient, wherein the second encapsulated active ingredient is encapsulated in a second polymer which may be the same as or different from the first polymer, and a binder to releasably affix the encapsulated active ingredient to at least one of the first active ingredient layer and a subsequent active ingredient layer. | 04-17-2014 |
20150075740 | PROCESSES FOR CLAY EXFOLIATION AND USES THEREOF - The present invention provides methods for producing exfoliated clay platelets from a swellable clay material. In embodiments, the method for producing exfoliated clay platelets includes providing an exfoliating agent comprising an anionic extractant, and exposing the swellable clay material to the exfoliating agent, wherein the exfoliating agent produces exfoliated clay platelets from the swellable clay material. Methods for treating paper precursors and paper sheets are also disclosed, as are paper products formed from such paper precursors or paper sheets. | 03-19-2015 |
20150176210 | ADDITIVES FOR PAPERMAKING - The invention is directed to systems for papermaking comprising a first population of fibers dispersed in an aqueous solution and complexed with an activator, and a second population of composite additive particles bearing a tethering material, wherein the addition of the second population to the first population attaches the composite additive particles to the fibers. The invention also encompasses methods for manufacturing a paper product. | 06-25-2015 |
20150176214 | BULK AND STIFFNESS ENHANCEMENT IN PAPERMAKING - The present invention provides formulations for papermaking and methods for their use. In embodiments, the formulations include a treatment agent and a fluid carrier, where the treatment agent includes a volatile debonder or a polymer composition exhibiting a lower critical solution temperature. Methods for treating a paper product to increase its bulk or its stiffness are also disclosed, in addition to paper products formed from such methods. | 06-25-2015 |
Patent application number | Description | Published |
20150328279 | COMPOSITIONS AND METHODS FOR AFFECTING MOVEMENT OF CONTAMINANTS, BODILY FLUIDS OR OTHER ENTITIES, AND/OR AFFECTING OTHER PHYSIOLOGICAL CONDITIONS - Compositions which self-assemble under physiological conditions are formulated for application to wounds. The formulations include a pharmaceutically acceptable carrier or are provided as part of a medical device or coating. The formulations may also include other therapeutic, prophylactic or diagnostic agents. The formulation can be administered as appropriate for treatment of one or more disorders or conditions. For example, the formulation may be applied to repair an injury or during surgery of the lung, eye or dura, or following an epidural or spinal tap, to stop leakage of blood, interstitial fluid, or cerebrospinal fluid. The formulation may be administered to a burn or ulcer. The formulation may be dispersed in a suture or adhesive for administration at the time of or as released following suturing or gluing of a wound, thereby limiting bleeding, loss of tissue fluids, or other fluids such as those produced by parenchymal tissues such as the liver, pancreas, and gastrointestinal tract. The formulation may be applied to any site of bleeding, in a bandage, gauze, sponge, or other material, for immediate control of bleeding, or released later to control bleeding if the initial treatment such as suturing or pressure is insufficient. In one embodiment, the formulation is provided as a dry or lyophilized powder. In another embodiment, the material is provided in water. In another embodiment, the material is provided in combination with an oil and forms a laminate. In another embodiment, the formulation is provided as a coating on a device, for example a stent or a catheter. The material is also useful to isolate tissue, for preservation of tissue for subsequent transplantation or reattachment, and as a bulking, stabilizing or hydrating agent. | 11-19-2015 |
Patent application number | Description | Published |
20130147205 | INTEGRATED ENERGY GENERATING DAMPER - A linear energy harvesting device that includes a housing and a piston that moves at least partially through the housing when it is compressed or extended from a rest position. When the piston moves, hydraulic fluid is pressurized and drives a hydraulic motor. The hydraulic motor drives an electric generator that produces electricity. Both the motor and generator are central to the device housing. Exemplary configurations are disclosed such as monotube, twin-tube, tri-tube and rotary based designs that each incorporates an integrated energy harvesting apparatus. By varying the electrical characteristics on an internal generator, the kinematic characteristics of to the energy harvesting apparatus can be dynamically altered. In another mode, the apparatus can be used as an actuator to create linear movement. Applications include vehicle suspension systems (to act as the primary damper component), railcar bogie dampers, or industrial applications such as machinery dampers and wave energy harvesters, and electro-hydraulic actuators. | 06-13-2013 |
20130154280 | INTEGRATED ENERGY GENERATING DAMPER - A linear energy harvesting device that includes a housing and a piston that moves at least partially through the housing when it is compressed or extended from a rest position. When the piston moves, hydraulic fluid is pressurized and drives a hydraulic motor. The hydraulic motor drives an electric generator that produces electricity. Both the motor and generator are central to the device housing. Exemplary configurations are disclosed such as monotube, twin-tube, tri-tube and rotary based designs that each incorporates an integrated energy harvesting apparatus. By varying the electrical characteristics on an internal generator, the kinematic characteristics of the energy harvesting apparatus can be dynamically altered. In another mode, the apparatus can be used as an actuator to create linear movement. Applications include vehicle suspension systems (to act as the primary damper component), railcar bogie dampers, or industrial applications such as machinery dampers and wave energy harvesters, and electro-hydraulic actuators. | 06-20-2013 |
20140260233 | Hydraulic actuator with on-demand energy flow - Various embodiments related to hydraulic actuators and active suspension systems as well as their methods of use are described. | 09-18-2014 |
20140265168 | Active suspension with on-demand energy flow - Various embodiments related to hydraulic actuators and active suspension systems as well as their methods of use are described. | 09-18-2014 |
20140265169 | Integrated active suspension smart valve - Various embodiments related to hydraulic actuators and active suspension systems as well as their methods of use are described. | 09-18-2014 |
20140265170 | ACTIVE SUSPENSION WITH ON-DEMAND ENERGY FLOW - Various embodiments related to hydraulic actuators and active suspension systems as well as their methods of use are described. | 09-18-2014 |
20140288776 | ACTIVE VEHICLE SUSPENSION - A method of on-demand energy delivery to an active suspension system is disclosed. The suspension system includes an actuator body, a hydraulic pump, an electric motor, a plurality of sensors, an energy storage facility, and a controller. The method includes disposing an active suspension system in a vehicle between a wheel mount and a vehicle body, detecting a wheel event requiring control of the active suspension; and sourcing energy from the energy storage facility and delivering it to the electric motor in response to the wheel event. | 09-25-2014 |
20140294625 | CONTACTLESS SENSING OF A FLUID-IMMERSED ELECTRIC MOTOR - A method and system for measuring rotor position or velocity in an electric motor disposed in hydraulic fluid. The system comprises a contactless position sensor that measures electric motor rotor via magnetic, optical, or other means through a diaphragm that is permeable to the sensing means but impervious to the hydraulic fluid. An electronic sensor is positioned outside the operating fluid, whereas the motor is located in the fluid volume. | 10-02-2014 |
20140297113 | ACTIVE STABILIZATION SYSTEM FOR TRUCK CABINS - An active suspension system for a truck cabin that actively responds to and mitigates external force inputs between the truck chassis and the cabin. The system greatly reduces pitch, roll, and heave motions that lead to operator discomfort. The assembly is comprised of two or more self-contained actuators that respond to commands from an electronic controller. The controller commands the actuators based on feedback from one or more sensors on the cabin and/or chassis. | 10-02-2014 |
20140297119 | CONTEXT AWARE ACTIVE SUSPENSION CONTROL SYSTEM - A method for reducing power consumption in an active suspension system through the selective use of high performance, associated with high power demand, only in situations instantaneously deemed to provide a high ratio of benefit to cost. Input events are classified ahead of time, and are identified during operation of the system, ahead of time if possible through the use of look-ahead sensing or statistical analysis, or at the beginning of the event through the use of motion sensing. Once an event is detected, an estimation of the cost and benefits for an intervention of the active suspension system is made, and the intervention is scaled in a way to provide a good compromise. Relying on the nonlinearity of the cost and benefit expressions, this leads to overall reduced power consumption with small loss in perceived benefit. | 10-02-2014 |
20150224845 | ACTIVE VEHICLE SUSPENSION SYSTEM - A method of on-demand energy delivery to an active suspension system comprising an actuator body, hydraulic pump, electric motor, plurality of sensors, energy storage facility, and controller is provided. The method comprises disposing an active suspension system in a vehicle between a wheel mount and a vehicle body, detecting a wheel event requiring control of the active suspension; and sourcing energy from the energy storage facility and delivering it to the electric motor in response to the wheel event. | 08-13-2015 |
20150316039 | INTEGRATED ENERGY GENERATING DAMPER - A linear energy harvesting device that includes a housing and a piston that moves at least partially through the housing when it is compressed or extended from a rest position. When the piston moves, hydraulic fluid is pressurized and drives a hydraulic motor. The hydraulic motor drives an electric generator that produces electricity. Both the motor and generator are central to the device housing. Exemplary configurations are disclosed such as monotube, twin-tube, tri-tube and rotary based designs that each incorporates an integrated energy harvesting apparatus. By varying the electrical characteristics on an internal generator, the kinematic characteristics of to the energy harvesting apparatus can be dynamically altered. In another mode, the apparatus can be used as an actuator to create linear movement. Applications include vehicle suspension systems (to act as the primary damper component), railcar bogie dampers, or industrial applications such as machinery dampers and wave energy harvesters, and electro-hydraulic actuators. | 11-05-2015 |
20160031285 | MULTI-PATH FLUID DIVERTER VALVE - A multi-path fluid flow control valve for a shock absorber that restricts fluid into a first path while opening fluid flow to a second path when a given fluid flow velocity is reached. Exemplary configurations of this diverter valve are disclosed such as a spring loaded disc valve with face sealing lands, and a spool valve with diametric sealing lands. Applications include active suspension dampers in order to limit maximum RPM into a hydraulic motor. For such a system, in one mode the diverter valve allows fluid to move unrestricted into the hydraulic motor. When fluid velocity reaches a tunable set point, in a second mode the diverter valve restricts flow into the hydraulic motor and bypasses it shuttling fluid into the opposite side of the damper. In some cases progressive damping valves are utilized in series or parallel to smooth damping characteristics during, before, and after transitions. | 02-04-2016 |
20160075205 | ACTIVE VEHICLE SUSPENSION - A method of on-demand energy delivery to an active suspension system is disclosed. The suspension system includes an actuator body, a hydraulic pump, an electric motor, a plurality of sensors, an energy storage facility, and a controller. The method includes disposing an active suspension system in a vehicle between a wheel mount and a vehicle body, detecting a wheel event requiring control of the active suspension; and sourcing energy from the energy storage facility and delivering it to the electric motor in response to the wheel event. | 03-17-2016 |