Patents by Inventor Yoon O. Lhymn

Yoon O. Lhymn has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 5419357
    Abstract: A unique design for improved creep strength with a leakage-free structure is presented for manufacture of creep-resistant pressure relief device (PRD) of valves or cylinders or any pressure vessels as a fire protection safety device, the new design being the combination of geometrical configuration of PRD body shell and composite technology wherein the relatively weak matrix phase is dispersed with strong reinforcing agent and such composite mixture of matrix phase/reinforcing agent is contained in a nonslip structure of PRD cavity with a length/diameter ration being greater than about one such that the external load is transferred to the PRD structural body via stress transfer mechanism through reinforcing agents. The PRD's or fuse plugs fabricated by techniques of the present invention exhibit pronounced creep strength and show no gas leakage under high pressure/elevated temperature conditions realized during fires.
    Type: Grant
    Filed: April 16, 1993
    Date of Patent: May 30, 1995
    Assignee: Summit Composite International
    Inventors: Chang Lhymn, Yoon O. Lhymn
  • Patent number: 5223347
    Abstract: A fabrication method of strengthening metallic alloys by composite technology has been developed by mixing steel shots or aggregates with conventional alloys, thus preventing cold flow or creep. Preventing creep is advantageous in thermal plugs which must withstand fluid pressure without leakage until subjected to dangerous temperatures such as caused by fire. The matrix alloy primarily consists of some or all of copper, magnesium, bismuth, tin, lead, cadmium, and indium and the particle material is preferably iron or steel. New alloys exhibit a higher strength against a hydrostatic gas pressure than that of conventional matrix phase containing no reinforcing particles, while maintaining the melting temperature of new alloys in the same range of conventional unreinforced matrix alloy. The mixing of steel particles with the matrix is achieved by employing a flux such as ammonium chloride.
    Type: Grant
    Filed: July 26, 1991
    Date of Patent: June 29, 1993
    Assignee: Composites Technology International, Inc.
    Inventors: Chang Lhymn, Yoon O. Lhymn
  • Patent number: 5034283
    Abstract: Chilled iron shots with the carbon content being about 3 weight % are mixed with zinc-based alloys containing copper at a temperature between the liquidus and solidus of the matrix phase alloy such that the matrix alloy becomes a mixture of liquid and solid phase particles. Such slurry state mixture is agitated to form a vortex and the iron shots are injected to the vortex zone. The composite zinc alloy fabricated by the preceding slurry vortex method is very economical without degrading the physical/mechanical behavior compared to conventional zinc alloys. The copper or zinc coating on iron shots tends to improve the wetting adhesion between shots and matrix alloy, thus eliminating defects at the interphase between shots and matrix phase.
    Type: Grant
    Filed: February 23, 1990
    Date of Patent: July 23, 1991
    Assignee: Summit Composites International
    Inventors: Chang Lhymn, Yoon O. Lhymn
  • Patent number: 4962003
    Abstract: In summary of this disclosure, the present invention provides novel metal matrix fibrous composites which can be used as a fusible core in molding plastics. Modifications are possible within the scope of this invention.
    Type: Grant
    Filed: April 29, 1988
    Date of Patent: October 9, 1990
    Inventors: Yoon O. Lhymn, Chang Lhymn
  • Patent number: 4927712
    Abstract: Tin-based alloys filled with steel shots or/and reinforced with short tin-coated steel fibers were prepared by melting the alloy phase and by mixing filler shots/fibers with the molten alloy in an air atmosphere with the addition of ammonium chloride. The content of steel shots ranges up to about 40 weight % and the fraction of tin-coated steel fibers ranges up to about 30 weight %. New reinforced composite alloys have a higher strength than unreinforced conventional alloys while keeping the melting temperature of new composites in the same range of unreinforced alloys.
    Type: Grant
    Filed: May 23, 1988
    Date of Patent: May 22, 1990
    Assignee: Yoon Technology
    Inventors: Yoon O. Lhymn, Chang Lhymn