Abstract: A method involves retrofitting conventional injectors with needles having magnetostrictive portions and wound coils configured and disposed so as to subject the magnetostrictive portions of the needles to ultrasonically oscillating magnetic fields.

Abstract: An ultrasonic fuel injector for injecting a pressurized liquid fuel into the combustion chamber of an internal combustion engine that uses an overhead cam for actuating the injector, includes an injector body and an injector needle. The injector needle is disposed within the body and includes a magnetostrictive portion disposed in the region of the body defined by a ceramic wall, which is transparent to magnetic fields changing at ultrasonic frequencies. A wire coil is wound around the outside surface of the ceramic wall and connected to a source of electric power that is controlled to oscillate at ultrasonic frequencies during predetermined intervals of operation of the injector. A sensor is configured to signal when the overhead cam is actuating the injector to inject fuel into the combustion chamber of the engine.

Abstract: An ultrasonic apparatus and a method for injecting a pressurized liquid fuel by applying ultrasonic energy to a portion of the pressurized liquid fuel. The apparatus includes a die housing which defines a chamber adapted to receive a pressurized liquid and a means for applying ultrasonic energy to a portion of the pressurized liquid. The die housing further includes an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice defined by the walls of a die tip. The exit orifice is adapted to receive the pressurized liquid from the chamber and pass the liquid out of the die housing. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without applying ultrasonic energy to the die tip.

Abstract: An ultrasonic apparatus and a method for injecting a pressurized liquid fuel by applying ultrasonic energy to a portion of the pressurized liquid fuel. The apparatus includes a die housing which defines a chamber adapted to receive a pressurized liquid and a means for applying ultrasonic energy to a portion of the pressurized liquid. The die housing further includes an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice defined by the walls of a die tip. The exit orifice is adapted to receive the pressurized liquid from the chamber and pass the liquid out of the die housing. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without applying ultrasonic energy to the die tip.

Abstract: An ultrasonic fuel injector for injecting a pressurized liquid fuel into the combustion chamber of an internal combustion engine that uses an overhead cam for actuating the injector includes a valve body having an injector needle disposed therein forming a needle valve to meter the flow of fuel through the injector. The valve body is formed of ceramic material that is transparent to magnetic fields changing at ultrasonic frequencies. The injector needle includes a magnetostrictive portion disposed in the region of the valve body that is surrounded by a wire coil wound around the outside surface of the ceramic valve body. The wire coil is connected to a source of electric power that oscillates at ultrasonic frequencies. A sensor is configured to signal when the overhead cam is actuating the injector to inject fuel into the combustion chamber of the engine.

Abstract: An ultrasonic apparatus and a method for improving the transfer, delivery, and flow of viscous liquids including heavy fuel and lubricating oils, such as bunker, molten metals, molten bitumens, food products, and other heavy viscous liquids. The apparatus includes a housing and a means for applying ultrasonic energy to a portion of the pressurized liquid as the liquid passes through the housing. The housing includes a chamber adapted to receive viscous liquid under pressure, a second smaller chamber or vestibular cavity in communication with the chamber, an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice adapted to pass the liquid out of the housing. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid contained within the vestibular cavity without mechanically vibrating the tip.

Abstract: The present invention relates to an apparatus for mixing, atomizing, and applying liquid coatings onto a surface. The apparatus includes a housing and a means for applying ultrasonic energy to a portion of the pressurized liquid as the liquid passes through the housing. The housing includes a premixing chamber adapted to receive multi-component liquid under pressure, a mixing chamber in communication with the premixing chamber, an inlet adapted to supply the premixing chamber with the pressurized liquid, and an exit orifice adapted to pass the liquid out of the housing. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid contained within the mixing chamber without mechanically vibrating the tip.

Abstract: An ultrasonically enhanced continuous flow apparatus for selectively microemulsifying water and other normally immiscible fluids into the fuel of continuous combustors at the point of injection and a method for the same is disclosed. The apparatus includes an injector housing which in part defines a chamber adapted to receive a pressurized liquid and a means for applying ultrasonic energy to a portion of the pressurized liquid. The injector housing further includes an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice defined by the walls of an injector tip. The exit orifice is adapted to receive the pressurized liquid from the chamber via a vestibular cavity and pass the liquid out of the injector housing in the form of an emulsified, atomized plume. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without mechanically vibrating the injector tip.

Abstract: An ultrasonically enhanced continuous flow apparatus for injection of liquid fuel into a continuous fuel combustor and a method of improving continuous flow fuel combustors by the application of ultrasonic energy to a pressurized liquid fuel exiting an orifice is disclosed. The apparatus includes an injector or die housing which in part defines a chamber adapted to receive a pressurized liquid and a means for applying ultrasonic energy to a portion of the pressurized liquid. The die housing further includes an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice defined by the walls of an injector tip or die tip. The exit orifice is adapted to receive the pressurized liquid from the chamber via a vestibular cavity and pass the liquid out of the die housing. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without mechanically vibrating the die tip.

Abstract: There is provided a disposable personal article with a polymer having a glass transition temperature ranging between 25 and 45° C. The polymer is tacky over the temperature range, which is approximately that of the body, and results in better sealing of the personal care product to the wearer and so a decrease in the amount of bodily exudates that escape to soil the clothing of a wearer. The preferred polymer has a main chain, lateral perfluoroalkyl groups and lateral alkyl groups.

Abstract: An ultrasonic apparatus and a method for injecting a pressurized liquid fuel by applying ultrasonic energy to a portion of the pressurized liquid fuel. The apparatus includes a die housing which defines a chamber adapted to receive a pressurized liquid and a means for applying ultrasonic energy to a portion of the pressurized liquid. The die housing further includes an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice defined by the walls of a die tip. The exit orifice is adapted to receive the pressurized liquid from the chamber and pass the liquid out of the die housing. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without applying ultrasonic energy to the die tip.

Abstract: An ultrasonic fuel injector for injecting a pressurized liquid fuel into the combustion chamber of an internal combustion engine that uses an overhead cam for actuating the injector, includes an injector body and an injector needle. The injector needle is disposed within the body and includes a magnetostrictive portion disposed in the region of the body defined by a ceramic wall, which is transparent to magnetic fields changing at ultrasonic frequencies. A wire coil is wound around the outside surface of the ceramic wall and connected to a source of electric power that is controlled to oscillate at ultrasonic frequencies during predetermined intervals of operation of the injector. A sensor is configured to signal when the overhead cam is actuating the injector to inject fuel into the combustion chamber of the engine.

Abstract: An ultrasonic fuel injector for injecting a pressurized liquid fuel into the combustion chamber of an internal combustion engine that uses an overhead cam for actuating the injector includes a valve body having an injector needle disposed therein forming a needle valve to meter the flow of fuel through the injector. The valve body is formed of ceramic material that is transparent to magnetic fields changing at ultrasonic frequencies. The injector needle includes a magnetostrictive portion disposed in the region of the valve body that is surrounded by a wire coil wound around the outside surface of the ceramic valve body. The wire coil is connected to a source of electric power that oscillates at ultrasonic frequencies. A sensor is configured to signal when the overhead cam is actuating the injector to inject fuel into the combustion chamber of the engine.

Abstract: The present invention relates to a composite material including a substrate with a first and a second layer, and a surfactant. The surfactant is applied to the first layer of the substrate. The surfactant acts to lower the surface tension of a fluid which contacts the first layer of the substrate such that the fluid is allowed or more readily enabled to pass through the first layer of the substrate, but such that the surfactant does not substantially adversely effect the absorption capacity or wicking height of the second layer of the substrate, as the second layer of the substrate substantially inactivates the surfactant upon contact or interaction therewith.

Abstract: A method employing a ultrasonicator apparatus to emulsify a pressurized multi-component liquid. The apparatus includes a die housing comprising a chamber adapted to receive a pressurized multi-component liquid, an inlet adapted to supply the chamber with the pressurized multi-component liquid, an exit orifice defined by the walls of a die tip, and a means for applying ultrasonic energy to a portion of the pressurized liquid. The method for emulsifying a pressurized multi-component liquid comprising supplying a pressurized multi-component liquid to the apparatus, applying ultrasonic energy to the pressurized liquid but not the die tip while the exit orifice receives pressurized liquid from the chamber, and passing the pressurized liquid out of the exit orifice in the die tip so that the multi-component liquid is emulsified, wherein the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without applying ultrasonic energy to the die tip.

Abstract: An apparatus and a method for ultrasonically producing a spray of liquid. The apparatus includes a die housing which defines a chamber adapted to receive a pressurized liquid and a means for applying ultrasonic energy to a portion of the pressurized liquid. The die housing further includes an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice defined by the walls of a die tip. The exit orifice is adapted to receive the pressurized liquid from the chamber and pass the liquid out of the die housing to produce a spray of liquid. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without applying ultrasonic energy to the die tip.

Abstract: A method of attaching a substantially uniform distribution of particulates to individual exposed surfaces of a matrix of fibrous material. The method includes the following steps: 1) electrically charging a matrix of fibrous material having individual exposed surfaces to create a substantially uniform distribution of charged sites at the exposed surfaces; 2) applying particulates to the charged matrix of fibrous material so that at least some particulates adhere at the charged sites; and 3) attaching particulates adhering to the fibrous material at charged sites by substantially non-transient bonding.

Abstract: Disclosed is a peel pouch adapted to enclose an article to be sterilized, the peel pouch having a base panel having an exterior surface and an edge. In selected embodiments, a first and a second flap are disposed along the edge of the base panel so that the first flap is spaced apart from the second flap. The peel pouch further includes a cover panel having at least one tab disposed on along an edge of the cover panel, the cover panel overlying the base panel. In some embodiments, at least a portion of the tab is disposed above and between the first and second flaps. At least one seal joins the cover panel to the base panel so that a pocket suitable to receive articles to be sterilized is formed. The peel pouch may be electret treated prior to insertion of the article to be sterilized. During opening of the peel pouch, the exterior surface of the base panel is held against a supporting surface while a separating force is applied to the tab of the cover panel to separate the cover panel from the base panel.

Abstract: An apparatus and a method for ultrasonically producing a spray of liquid. The apparatus includes a die housing which defines a chamber adapted to receive a pressurized liquid and a means for applying ultrasonic energy to a portion of the pressurized liquid. The die housing further includes an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice defined by the walls of a die tip. The exit orifice is adapted to receive the pressurized liquid from the chamber and pass the liquid out of the die housing to produce a spray of liquid. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without applying ultrasonic energy to the die tip.

Abstract: An apparatus and a method for increasing the flow rate of a pressurized liquid through an orifice by applying ultrasonic energy to a portion of the pressurized liquid. The apparatus includes a die housing which defines a chamber adapted to receive a pressurized liquid and a means for applying ultrasonic energy to a portion of the pressurized liquid. The die housing further includes an inlet adapted to supply the chamber with the pressurized liquid, and an exit orifice defined by the walls of a die tip. The exit orifice is adapted to receive the pressurized liquid from the chamber and pass the liquid out of the die housing. When the means for applying ultrasonic energy is excited, it applies ultrasonic energy to the pressurized liquid without applying ultrasonic energy to the die tip.