| Patent Number |
Title Of Patent |
Date Issued |
| 7419887 |
Laser assisted nano deposition |
September 2, 2008 |
| An apparatus and method is disclosed for forming a nano structure on a substrate with nano particles. The nano particles are deposited through a nano size pore onto the substrate. A laser beam is directed through a concentrator to focus a nano size laser beam onto the deposited nano |
| 7268063 |
Process for fabricating semiconductor component |
September 11, 2007 |
| A process is disclosed for in-situ fabricating a semiconductor component imbedded in a substrate. A substrate is ablated with a first laser beam to form a void therein. A first conductive element is formed in the void of the substrate with a second laser beam. A semiconductor material is |
| 7237422 |
Method of drawing a composite wire |
July 3, 2007 |
| An apparatus and method is disclosed for drawing continuous metallic wire having a first diameter to a metallic fiber having a reduced second diameter. A feed mechanism moves the wire at a first linear velocity. A laser beam heats a region of the wire to an elevated temperature. A draw |
| 7013695 |
Method for drawing continuous fiber |
March 21, 2006 |
| An apparatus and method is disclosed for drawing continuous metallic wire having a first diameter to a metallic fiber having a reduced second diameter. A feed mechanism moves the wire at a first linear velocity. A laser beam heats a region of the wire to an elevated temperature. A draw |
| 6939748 |
Nano-size semiconductor component and method of making |
September 6, 2005 |
| A method is disclosed for making a nano-size semiconductor component within a wide-bandgap semiconductor substrate. A first thermal energy beam is directed onto a first portion of the wide-bandgap semiconductor substrate to change the structure of the wide-bandgap semiconductor substrate |
| 6930009 |
Laser synthesized wide-bandgap semiconductor electronic devices and circuits |
August 16, 2005 |
| A laser apparatus and methods are disclosed for synthesizing areas of wide-bandgap semiconductor substrates or thin films, including wide-bandgap semiconductors such as silicon carbide, aluminum nitride, gallium nitride and diamond to produce electronic devices and circuits such as i |
| 6732562 |
Apparatus and method for drawing continuous fiber |
May 11, 2004 |
| An apparatus and method is disclosed for drawing continuous metallic wire having a first diameter to a metallic fiber having a reduced second diameter. A feed mechanism moves the wire at a first linear velocity. A laser beam heats a region of the wire to an elevated temperature. A draw |
| 6670693 |
Laser synthesized wide-bandgap semiconductor electronic devices and circuits |
December 30, 2003 |
| A laser apparatus and methods are disclosed for synthesizing areas of wide-bandgap semi-conductor substrates or thin films, including wide-bandgap semiconductors such as silicon carbide, aluminum nitride, gallium nitride and diamond to produce electronic devices and circuits such as |
| 6652615 |
Seal for filter element |
November 25, 2003 |
| An improved seal and method of making is disclosed for sealing a filter element to a filter mounting. The improved seal comprises a bonding pad formed from a sintered matrix of randomly oriented metallic fiber. The bonding pad is disposed between the filter element and the filter mountin |
| 6497029 |
Process for making fine and ultra fine metallic fibers |
December 24, 2002 |
| A process for making fine and ultra-fine metallic fibers is disclosed comprising arranging a multiplicity of metallic wires to form an assembly of the metallic wires. The assembly of the metallic wires is wrapped with a wrapping material to form a wrapped assembly. A plurality of the wra |
| 6437967 |
Capacitor |
August 20, 2002 |
| An apparatus and process for making a capacitor comprising a first capacitor plate element covered with a spacing material selected for forming a capacitor dielectric. The first capacitor plate element and the spacing material is encased with a second capacitor element. The second ca |
| 6435861 |
Gas burner assembly and method of making |
August 20, 2002 |
| An improved gas burner for a gas burner assembly and method of making is disclosed comprising a porous burner element extending between a first and a second end. The porous burner element comprises a sintered matrix of metallic fibers. A first end cap is formed from a rigid metallic mate |
| 6381826 |
Process for producing high quality metallic fiber mesh |
May 7, 2002 |
| The process for making fine metallic mesh is disclosed comprising the steps of cladding an array of metallic wires with an array cladding material to provide an array cladding. The array cladding is drawn for reducing the diameter thereof and for reducing the corresponding diameters of e |
| 6329625 |
Method of making a seal |
December 11, 2001 |
| An improved seal and method of making is disclosed for sealing a filter element to a filter mounting. The improved seal comprises a bonding pad formed from a sintered matrix of randomly oriented metallic fiber. The bonding pad is disposed between the filter element and the filter mou |
| 6292349 |
Capacitor |
September 18, 2001 |
| An apparatus and process for making a capacitor having a first capacitor plate element covered with a spacing material selected for forming a capacitor dielectric. The first capacitor plate element and the spacing material is encased with a second capacitor element. The second capacitor |
| 6291806 |
Process for bonding workpieces |
September 18, 2001 |
| The process of bonding a first workpiece to a second workpiece is disclosed comprising the steps of fabricating a sintered bonding pad formed from a matrix of randomly oriented metallic fibers. The bonding pad is interposed between the first and the second workpiece and the first and sec |
| 6271576 |
Laser synthesized ceramic sensors and method for making |
August 7, 2001 |
| Laser apparatus and methods are provided for synthesizing areas of ceramic substrates or thin films, such ceramics as Silicon Carbide and Aluminum Nitride, to produce electronic devices and circuits such as sensors as integral electro circuit components thereof. Circuit components such a |
| 6248192 |
Process for making an alloy |
June 19, 2001 |
| A process is disclosed for making an alloy comprising the steps of cladding with a tube a plurality of metal members including a first and a second metal to form a metal composite. The metal composite is drawn for reducing the diameter thereof. The tube is removed to provide a remainder. |
| 6215648 |
Capacitor |
April 10, 2001 |
| An apparatus and process is disclosed for making a capacitor having the steps of covering a first capacitor plate element with a dielectric material. The process includes encasing the first capacitor plate element and the dielectric material with a second capacitor element. The second |
| 6200523 |
Apparatus and method of sintering elements by infrared heating |
March 13, 2001 |
| An apparatus and a method is disclosed for sintering a matrix of elements such as fibers or particles by infrared heating. A multiplicity of the elements are arranged into a matrix of substantially randomly oriented elements to form a web. The web is irradiated with infrared energy for a |
| 6180909 |
Apparatus and method for sealing fluid filter by infrared heating |
January 30, 2001 |
| An apparatus and method is disclosed for sealing a filter element to a support member. An array of bonding fibers is interposed between the filter element and the support member. Infrared energy is applied for a period of time sufficient to at least partially melt the array of bonding |
| 6112395 |
Process of making fine and ultra fine metallic fibers |
September 5, 2000 |
| A process is disclosed for making fine metallic fibers comprising forming a continuous tube about a plurality of coated metallic wires for providing a first cladding. The first cladding is drawn for reducing the outer diameter and for diffusion welding the coating within the cladding. Th |
| 6096212 |
Fluid filter and method of making |
August 1, 2000 |
| A fluid filter assembly and method of making is disclosed for filtering a fluid. The fluid filter assembly comprises a first filter component including a filter media comprising a matrix of metallic fibers. A second filter component includes a filter support. A sinter bond bonds the matr |
| 6079089 |
Method of making a capacitor |
June 27, 2000 |
| An apparatus and process for making a capacitor comprising the steps of covering a first capacitor plate element with a dielectric material. The process includes encasing the first capacitor plate element and the dielectric material with a second capacitor element. The second capacitor |
| 6054375 |
Method for making laser synthesized ceramic electronic devices and circuits |
April 25, 2000 |
| Laser apparatus and methods are provided for synthesizing areas of ceramic substrates or thin films, such ceramics as Silicon Carbide and Aluminum Nitride, to produce electronic devices and circuits as integral electron circuit components thereof. Circuit components such as conductive ta |
| 6046091 |
Capacitor and method of making |
April 4, 2000 |
| An apparatus and process for making a capacitor comprising a first capacitor plate element covered with a spacing material selected for forming a capacitor dielectric. The first capacitor plate element and the spacing material is encased with a second capacitor element. The second ca |
| 6025609 |
Laser synthesized ceramic electronic devices and circuits and method for making |
February 15, 2000 |
| Laser apparatus and methods are provided for synthesizing areas of ceramic substrates or thin films, such ceramics as Silicon Carbide and Aluminum Nitride, to produce electronic devices and circuits as integral electron circuit components thereof. Circuit components such as conductive ta |
| 5837607 |
Method of making a laser synthesized ceramic electronic devices and circuits |
November 17, 1998 |
| Laser apparatus and methods are provided for synthesizing areas of ceramic substrates or thin films, such ceramics as Silicon Carbide and Aluminum Nitrid, to produce electronic devices and circuits as integral electron circuit components thereof. Circuit components such as conductive tab |
| 5793042 |
Infrared spectrophotometer accelerated corrosion-erosion analysis system |
August 11, 1998 |
| A preferred embedment of the system and a method are provided utilizing Fourier Transform Infrared Spectrophotometer (FITR) for examination and analysis of materials on a real-time basis in a chamber at elevated temperatures with corrosive-erosive gaseous environments that cause acce |
| 5391841 |
Laser processed coatings on electronic circuit substrates |
February 21, 1995 |
| Enhanced thermal and electrical properties of ceramic for high-power integrating substrates are provided by focused thermal energy sources such as by laser processing. A thin ceramic layer, such as alumina, is plasma spray deposited on a relative thick metal substrate, such as copper or |
| 5184662 |
Method for clad-coating ceramic particles |
February 9, 1993 |
| Metal and ceramic particles of various morphologies are clad with a coating from the transistion metal group consisting of silver, gold, copper, nickel, iron, cobalt, aluminum etc., or combinations thereof, to provide improved coated particles for microelectronics or metal matrix composi |
| 5145741 |
Converting ceramic materials to electrical conductors and semiconductors |
September 8, 1992 |
| In a preferred embodiment room temperature electrically conductive or semiconductive ceramic paths or areas are produced on carbide and nitride ceramic substrates by a process of controlled oxidation using localized thermal heating (e.g., laser heating) by tracing desired paths onto the |
| 5070591 |
Method for clad-coating refractory and transition metals and ceramic particles |
December 10, 1991 |
| Metal and ceramic particles of various morphologies are clad with a coating from the transition metal group consisting of silver, gold, copper, nickel, iron, cobalt, aluminum etc., or combinations thereof, to provide improved coated particles for microelectronics or metal matrix composit |
| 4691091 |
Direct writing of conductive patterns |
September 1, 1987 |
| Electrically conductive paths are produced on a polymeric substrate by laser writing, i.e., by tracing desired paths on the substrate by a laser beam. The resulting paths comprise electrically conductive carbon as produced by thermal decomposition of substrate surface material; the paths |
| 4534310 |
Apparatus and method for processing wire strand cable for use in prestressed concrete structures |
August 13, 1985 |
| The apparatus and method for processing steel strand wire cable and the like for use in prestressed concrete is disclosed in which the outer surface of the cable produced has a substantial pure rust or hydrated oxide coating thereon enabling the cable to be utilized immediately in co |
| 4529566 |
Apparatus and method for processing wire strand cable for use in prestressed concrete structures |
July 16, 1985 |
| The apparatus and method for processing steel strand wire cable and the like for use in prestressed concrete is disclosed in which the outer surface of the cable produced has a substantial pure rust or hydrated oxide coating thereon enabling the cable to be utilized immediately in co |
| 4480014 |
Electrical contact means with gold-nickel alloy overlay |
October 30, 1984 |
| Electrical contact tape having a base portion of nickel, copper or nickel-copper alloy and an overlay of metallic material on said base portion is improved by utilizing for such overlay a gold-nickel alloy of which the precentage by weight of nickel is in the range of from about 1.8% |
| 4401479 |
Apparatus and method for processing wire stand cable for use in prestressed concrete structures |
August 30, 1983 |
| The apparatus and method for processing steel strand wire cable and the like for use in prestressed concrete is disclosed in which the outer surface of the cable produced has a substantial pure rust or hydrated oxide coating thereon enabling the cable to be utilized immediately in co |
| 4387276 |
Carbon transducer with electrical contact |
June 7, 1983 |
| A carbon transmitter utilizes an electrode prepared by in situ reaction between substrate copper and introduced sulfur. Good surface adhesion between the resulting CuS layer and the substrate is assured by use of a two-phase cobalt/copper substrate. |
