Abstract: There is disclosed a technique in which stripe formation due to laser annealing is prevented and uniform laser annealing is made over the whole surface of a substrate. A laser beam having an energy distribution with an edge which has a nearly vertical shape is used, and when scanning of the laser beam is carried out, the scanning is carried out while the edge having the nearly vertical shape is made the front of the scanning.

Abstract: A multiple laser peening cell apparatus for receiving pulses of energy from a laser shock peening device is comprised of a first cell for receiving a first pulse of energy, a second cell for receiving a second pulse of energy, and a beam distribution means, for directing the first pulse of energy and the second pulse of energy. Also, a method of directing pulses of energy originating from a single source to multiple workpieces comprises the steps of creating a first pulse of energy, directing the first pulse of energy to a first workpiece located in a first laser peening cell, creating a second pulse of energy, and directing the second pulse of energy to a second workpiece located in a second laser peening cell.

Abstract: A laser shock peening system includes an apparatus and method that senses a thickness of laser transparent confinement media flow, such as water. In one embodiment, the apparatus indicates a proper thickness, in another embodiment, the apparatus controls the flow rate of the confinement media using signals from probes of the apparatus. A first probe is used to sense a predetermined minimum thickness and another embodiment further includes a second probe to indicate a predetermined maximum thickness of the confinement media.

Abstract: An automated soldering technique and device are provided that are robust and reliable. A laser is used to heat metallic components to be soldered, and a wavelength of the laser is chosen based in light absorption characteristics of the metallic components. The laser wavelength can be, for example, about 825 nanometers. A soldering location at which the laser forms a beam spot is located at a predetermined distance away from a focus of the laser beam, so that the beam spot is defocused and has a uniform intensity across its area. The beam spot can be sized to simultaneously encompass a plurality of solder joint locations. The beam spot size and path across a plurality of solder joint locations are selected so that those portions of the solder joint locations which are touched by the beam have the same heat sinking properties. A camera is also provided coaxially with the laser beam, and a dichroic prism is positioned between the laser beam and the camera.

Abstract: In general, the present invention pertains to an apparatus and control system for working sheet material employs a tilting mechanism which automatically tilts a head about a theoretical point disposed upon the sheet material. In another aspect of the present invention, the head is defined as a laser head and the pivot point corresponds with the laser beam focal point. A further aspect of the present invention provides a seam tracking device and control system which automatically adjust a welding head height relative to the sheet material as a datum rather than relative to a gantry or other structure supporting the welding head. In yet another aspect of the present invention, an optical seam tracking device is employed to automatically tilt the welding head along differing rotational planes. In still another aspect of the present invention, various axial slides are employed in combination with a gantry.

Abstract: An imaging system for ablating an array matrix of high-density vias in a flexible and rigid desired object. The apparatus contains a mirror based x, y scanning repeat positioning and/or a single axis scanner positioning system that directs a single point of a coherent light radiation beam at desired individual mask segments. These mask segments are formed into a planar mask array. A flat field collimating lens system is positioned between the mirror scanning system and the mask arrays to correct the angular beam output of the repeat positioning mirror and redirects the beam so that it strikes a specific rear surface segment(s) of in the mask array. The flat field collimating lens provides a beam that either illuminates the mask perpendicular to its surface or at preselected optimized illumination angles. Once illuminated, the specific segment of the mask array images and processes a single or a plurality of desired holes or features in a top surface of a flexible or rigid desired object to be processed.

Abstract: A laser method scribes graphics on materials. The method relates to the identification and understanding of a new energy measurement called energy density per unit time, and the identification and simultaneous control of the laser operating parameters which influence this energy measurement. Once a range of energy density per unit time is determined for scribing a desired graphic on a given material, the energy density per unit time can be controlled to stay within that range to achieve desired results in a repeatable fashion. In a preferred embodiment, the invention relates to a method of scribing graphics on fabric, leather and vinyl materials. In this embodiment, the energy density per unit time can be controlled to substantially avoid complete carbonization, melting and/or burnthrough of the material.

Abstract: A method is disclosed for manufacturing a molded body, in accordance with three-dimensional CAD data of a model of a molded body, by depositing layers of a metallic material in powder form. Several layers of powder are successively deposited one on top of the other, whereby each layer of powder is heated to a specific temperature by means of a focused laser beam applied to a given area corresponding to a selected cross-sectional area of the model of the molded body, before deposition of the next layer. The laser beam is guided over each layer of powder in accordance with the CAD cross-sectional data of the selected cross-sectional area of the model in such a way that each layer of powder is fixed to the layer below it.

Abstract: A laser processing apparatus in which a laser beam oscillatory output from a laser oscillation unit is transmitted through an optical fiber to a remote laser processing site, where the laser processing apparatus has an optical fiber setting apparatus for finding a supply power upper limit for the type of fiber (including a step index (SI) fiber and a graded index (GI) fiber) used and the diameter of the optical fiber, and a laser power supply unit for supplying the laser oscillation unit with an electric power for laser oscillation. A supply power mean value arithmetic apparatus detects the electric power supplied to the laser oscillation unit to figure out a supply power mean value at a certain interval, and the laser power supply unit is interrupted when the supply power mean value exceeds the supply power upper limit.

Abstract: A laser marking system includes a means for generating a laser beam and a marking control unit which generates individual signals applied to a laser system for producing an N×M matrix of dots used to mark an object. Each dot is created from the laser light from at least one laser diode. If multiple lasers are used, their power can be combined with a concentrator to produce a single beam with a higher power and also provide for simplified control over the beam's power.

Abstract: Techniques are provided for formatting laser pulse spatial shape and for effectively and efficiently delivering the laser energy to a work surface in the laser shock process. An appropriately formatted pulse helps to eliminate breakdown and generate uniform shocks. The invention uses a high power laser technology capable of meeting the laser requirements for a high throughput process, that is, a laser which can treat many square centimeters of surface area per second. The shock process has a broad range of applications, especially in the aerospace industry, where treating parts to reduce or eliminate corrosion failure is very important. The invention may be used for treating metal components to improve strength and corrosion resistance. The invention has a broad range of applications for parts that are currently shot peened and/or require peening by means other than shot peening.

Abstract: A target is laser shock peened by directing against an ablative coating thereon a laser beam pulse having a fluence, duration, and corresponding peak power effective for ablating the coating to form a plasma and shock wave therein. The plasma is confined adjacent the target to plastically deform the target by the shock wave to develop residual compressive stress therein. The pulse has a duration less than ten nanoseconds and a corresponding peak power for increasing coupling efficiency between the pulse and plasma.

Abstract: A device for mutually connecting by laser welding of sheet-metal objects laid flat against each other at least in determined zones, for instance two or more flat or previously profiled plates, for instance stainless steel or other objects for mutual connection by laser welding, comprising: a welding station comprising a laser and an optical device for performing a laser welding operation using a laser beam via a preselected path consisting for instance of a plurality of sub-paths; clamping means, for instance a lower clamping plate and an upper clamping beam for clamping against each other at least said regions, of the objects at the location of the welding station; transporting means for supplying and carrying successive assemblies of objects laid on top of each other according to a chosen displacement pattern along the welding station, which transporting means comprise two separate conveyors, wherein the welding station is a collective one for both conveyors and respective individual clamping means are adde

Abstract: A method of determining optimum heating conditions for applying a pulse laser point heat source onto a strip of a brittle material at its position in the vicinity of a tip of a crack of the strip for cleaving the strip by a thermal stress, wherein at least one of a non-dimensional pulse time of the pulse laser point heat source, a non-dimensional distance of the pulse laser point heat source from the tip of the crack, and a non-dimensional heating area is decided so that a ratio of non-dimensional stress intensity factor to temperature takes just or approximately a maximum value.

Abstract: An improved method for operating a steered laser beam system employs selective laser power control. A laser beam is provided having a selectively positionable focal point. A workpiece is provided on which a selected laser beam pattern is used to process the workpiece, and the laser beam focal point is controlled to travel along the selected pattern at varying velocities. A position of the focal point on the workpiece is dynamically determined as the focal point travels along the selected pattern. A velocity of the focal point on the workpiece is dynamically calculated based on multiple determined positions of the focal point. An energy level of the laser beam is controlled based on the calculated velocity of the focal point. In one embodiment, the energy level of the laser beam is adjusted to maintain a constant energy per unit distance traveled by the focal point.

Abstract: A laser output detector is provided which comprises: a convertor unit having a light sampling port to be located adjacent a projecting portion of a laser beam projector for sampling a fraction of a convergent portion of a laser beam projected from the laser beam projector or a fraction of a non-convergent portion of the laser beam outside the convergent portion of the laser beam, and adapted to convert the sampled laser beam fraction into an electrical signal; and a detection circuit for computing the energy amount of the projected laser beam on the basis of the electrical signal outputted from the convertor unit.