Abstract: Methods, systems, and apparatus are described for maintaining the interior cavities of pipes. In one aspect, a motorized apparatus includes a main body having a length extending along a longitudinal axis of the main body, where the main body comprises a first end and a second end opposite the first end. The motorized apparatus further includes at least one drive assembly coupled to at least one of the first end and the second end of the main body, where the at least one drive assembly comprises driven members that engage with an inner surface of the pipe and move the motorized apparatus through an interior cavity of the pipe. The motorized apparatus further includes a maintenance head movably coupled to the main body that moves along the length of the main body and rotates about the longitudinal axis of the main body, where the maintenance head comprises at least one tool configured to perform an action on the inner surface of the pipe.

Abstract: An electric vehicle propulsion system having a motor with first and second electrically isolated windings and a system control unit for controlling the motor, wherein the system control unit includes a first power bridge for driving the first windings and a second power bridge for driving the second windings.

Abstract: A coolant pump assembly for an electric vehicle includes a positive displacement pump having an inlet port, an outlet port, and a rotor, a variable-speed ac motor having a rotatable shaft mated with the rotor of the pump for rotating the rotor of the pump to circulate coolant through the inlet and outlet ports of the pump, and a motor control unit, communicating with a DC power source of the electric vehicle, for controlling the speed of the motor to provide a variable coolant flow through the electric vehicle.

Abstract: A method for cutting epoxy/carbon fiber composites of carbon fibers in epoxy resin uses a diffraction-limited neodymium (Nd) yttrium-aluminum-garnet (YAG) laser operated in a high peak power Q-switch mode at high pulse rates. The fiber composite is cut with minimal heat affected zone. Selective and multiple wavelength processing are applied for increased coupling efficiency with the epoxy and carbon material components of the composite.

Abstract: Methods of making an improved high performance x-ray system having a rotating anode therein which includes an improved target/tubular stem combination which, when combined with a rotor body assembly, reduces tube failure due to anode assembly imbalance and methods of bonding a metallic target and a metal tubular stem and connecting the combination to a rotor body assembly to provide a rotating x-ray tube target are disclosed. An insert of an alloy, for example, tantalum or its alloys, is placed between the target and the niobium-alloy tubular stem and then bonded thereto to produce the x-ray tube target/tubular stem assembly having a high remelt temperature and bond strength which, when connected, such as by bolting to the rotor body assembly, the resulting anode assembly retains proper balance during x-ray tube operations.

Abstract: A method for welding a plurality of stacked laminations includes positioning an edge of the laminations adjacent to a pulsed laser for receiving a pulsed laser beam at the kerf defined between adjacent laminations. The laser is operated to direct the pulsed laser beam at the kerf for melting the adjacent laminations to a predetermined maximum depth. The laser is controlled to limit heat input at the kerf for effecting a generally parabolic melting zone. The stacked laminations 10 are moved transversely edge-to-edge relative to the pulsed laser beam for repeating the pulsed welding at successive kerfs.

Abstract: Polycrystalline alumina bodies have been converted to sapphire by a solid state conversion process in which a localized energy source is used to heat only a portion of the body to a temperature above 1800.degree. C. Using a laser as the energy source resulted in conversion to sapphire in less than an hour. The polycrystalline alumina bodies had a magnesia content below 50 wppm, an average grain size below 100 microns, and a density greater than 3.97 g/cc.

Abstract: This invention relates to a method to selectively mitigate intergranular stress corrosion cracking (IGSCC) by rapid quench melting through the use of a pulsed laser. Such methods of the type, generally, mitigate reactor pipe cracking by rapidly melting the sensitized material to redissolve chromium carbide and then rapidly cooling the sensitized material such that corrosion cracking can be avoided.

Abstract: Laser joining of dissimilar material in order to form an integral structure. Such structure of this type, generally, allow circuit breaker components which are constructed of different material, to be joined together to form an integral circuit breaker.

Abstract: This invention relates to an method and apparatus for soldering microelectronic lead connections to pads on a ceramic substrate with the aid of a fiber based Neodymium:yttrium-aluminum-garnet (Nd:YAG) laser. Such structures of this type, generally, provide a means of delivering sufficient localized heating to the ceramic substrate to reflow solder plate or melt solder cream (paste) within the lead connection without any substrate preheating.

Abstract: This invention relates to laser joining of dissimilar materials in order to form an integral structure. Structures of this type, generally, allow circuit breaker components, which are constructed of different materials, to be joined together in order to form an integral circuit breaker.

Abstract: Two Nb.sub.3 Sn superconducting tapes are overlapped by an amount equal to about two times the width of the superconducting tapes. A filler material of material substantially similar to the tapes is placed between the two tapes in the overlapped region. A NdYAG laser (4) sends a 20-40 watt beam focused by a lens that heats the tapes to create a bridge of superconductivity material formed over the region where the tapes are joined.

Abstract: This invention relates to soldering systems of the type that provide localized soldering through the use of lasers. Such structures of this type generally allow flexible printed circuit boards to be locally soldered to metallized ceramic substrates. These structures have applications in such areas as ultrasound equipment.

Abstract: An apparatus and method for processing a composite object, the method comprising the steps of providing a composite object, aligning a laser source with a portion of the composite object to be processed, operating the laser source to generate laser beam pulses, and forming composite object elements by applying the pluses of beams from the source to the composite object portion to be processed.

Abstract: The present invention is a method for performing a joining operation to couple a first component to a second component. One embodiment of the present method includes the steps of aligning the first component and the second component so that a first portion of the first component is aligned with a first portion of the second component, heating the first component so that a melt is formed at the first portion of the first component, and forcing the first portion of the second component into the melt so that when the melt solidifies, the first component and the second component are bonded.

Abstract: The present invention is a method for forming an electrode-lead assembly. In one embodiment, the method comprises the steps of aligning the energy outlet of an energy source with an end portion of the lead, operating the energy source so that the emitted energy heats the end of the lead and so that a melt is formed at the end portion of the lead, and allowing the melt to solidify. The solified melt is bullet-shaped and serves as an electrode.

Abstract: The present invention is an apparatus for performing a joining operation to couple a first component to a second component. One embodiment of the present apparatus includes means for aligning the first component and the second component so that a first portion of the first component is aligned with a first portion of the second component, means for heating the first component so that a melt is formed at the first portion of the first component, and means for forcing the first portion of the second component into the melt so that when the melt solidifies, the first component and the second component are bonded. In the exemplification embodiment, the heating means is an Nd:YAG laser source which emits at least a first laser beam which impinges upon one of the components.

Abstract: A method for soldering a lead to a pad having a solder plate formed thereon is described. In one embodiment of the method, a tape is disposed between the lead and a laser source, and the method includes the steps of aligning the lead with the solder plated pad, transmitting a beam from the laser source through the tape and to a location where a solder joint is to be formed, and the beam heating the solder plate thereby causing reflow of the solder plate to form a solder joint.

Abstract: A laser peening apparatus and method for peening a workpiece utilizing a laser beam is described. The system includes a foil aligned with a surface of the workpiece to be peened and lasing the aligned foil surface. The foil absorbs energy from the beam and a portion of the foil vaporizes, which creates a hot plasma within the foil. The plasma creates a shock wave which passes through the foil and peens the workpiece surface.

Abstract: An X-shaped body has four slots for receiving optical fibers. A first pair of opposing slots are parallel so the fiber delivered high power laser beams can be used to solder components having leads, while a second pair of slots are at a right angles so the laser beams can be used to solder chip components. Screws and springs are in the slots to adjust the spacing and angle of the fibers of a pair with respect to each other.