11
Paul E Gray: Reverberatory screen for a radiant burner. AlliedSignal Composites, Lanxide Technology Company, Larry J Palguta, Jeffrey R Ramberg, November 23, 1999: US05989013 (32 worldwide citation)

The present invention relates to porous mat gas fired radiant burner panels utilizing improved reverberatory screens. The purpose of these screens is to boost the overall radiant output of the burner relative to a burner using no screen and the same fuel-air flow rates. In one embodiment, the reverb ...


12
Michael K Aghajanian, Allyn L McCormick: Ceramic-rich composite armor, and methods for making same. Law Office of Jeffrey R Ramberg, September 12, 2006: US07104177 (30 worldwide citation)

Silicon infiltration technology, e.g., siliconizing or reaction-bonding, is used to produce ceramic-rich composite bodies having utility as ballistic armor. In the main embodiment of the invention, the ballistic armor includes a reaction-bonded silicon carbide body (RBSC). Good ballistic performance ...


13
Ratnesh K Dwivedi, John T Burke: Brake rotors and methods for making the same. Lanxide Technology Company, Jeffrey R Ramberg, April 15, 1997: US05620791 (28 worldwide citation)

This invention relates to metal and ceramic matrix composite brake rotors comprising an interconnected matrix embedding at least one filler material. In the case of metal matrix composite materials, the at least one filler material comprises at least about 26% by volume of the brake rotor for most a ...


14
Marc S Newkirk, Michael K Aghajanian, Gregory E Hannon, Allyn L McCormick, Gerhard H Schiroky, Michael A Rocazella, Robert C Kantner: Methods for making thin metal matrix composite bodies and articles produced thereby. Lanxide Technology Company, Mark G Mortenson, Jeffrey R Ramberg, January 25, 1994: US05280819 (26 worldwide citation)

The present invention relates to a novel process for forming a plurality of thin metal matrix composite bodies. Particularly, an infiltration enhancer and/or an infiltrating atmosphere are in communication with a filler material or preform, at least at some point during the process, which permits mo ...


15
Michael K Aghajanian, Allyn L McCormick, Bradley N Morgan, Anthony F Liszkiewicz Jr: Boron carbide composite bodies, and methods for making same. M Cubed Technologies, Jeffrey R Ramberg, March 8, 2005: US06862970 (25 worldwide citation)

A composite body produced by a reactive infiltration process that possesses high mechanical strength, high hardness and high stiffness has applications in such diverse industries as precision equipment and ballistic armor. Specifically, the composite material features a boron carbide filler or reinf ...


16
Timothy A Ringeisen, Robert L McDade: Bi-phasic compressed porous reinforcement materials suitable for implant. Kensey Nash Corporation, Jeffrey R Ramberg, March 5, 2013: US08389588 (23 worldwide citation)

A high strength porous biphasic polymeric reinforcement material manufactured by a compression and/or sintering process is disclosed. The material results in a network of interconnected collapsed pores, which forces thin overlapping walls and passages to be created. The network provides permeable ac ...


17
Terry Dennis Claar, Vilupanur Alwar Ravi, Philip Joseph Roach: Composite bodies and methods for making same. Lanxide Technology Company, Jeffrey R Ramberg, September 5, 2000: US06113982 (23 worldwide citation)

This invention relates generally to a novel directed metal oxidation process which is utilized to produce self-supporting bodies. In some of the more specific aspects of the invention, a parent metal (e.g., a parent metal vapor) is induced to react with at least one solid oxidant-containing material ...


18
Douglas G Evans, Scott M Goldman, Russell T Kronengold: Devices and methods for treating defects in the tissue of a living being. Kensey Nash BVF Technology, Jeffrey R Ramberg, February 22, 2011: US07892291 (22 worldwide citation)

An implant for deployment in select locations or select tissue for regeneration of tissue is disclosed. The implant includes collagen and or other bio-resorbable materials, where the implant may also be used for therapy delivery. Additionally, the implant may include, or have blended in, an additive ...


19
John E Nash, William T Fisher, Charles W Dodson Jr: System and method of use for agent delivery and revascularizing of grafts and vessels. Kensey Nash Corporation, Law office of Jeffrey R Ramberg, May 19, 2009: US07534249 (22 worldwide citation)

A system and method for opening a lumen in an occluded blood vessel, e.g., a coronary bypass graft, of a living being. The system comprises an atherectomy catheter having a working head, e.g., a rotary impacting impeller, and a debris extraction sub-system. The atherectomy catheter is located within ...


20
Adam J Gesing, Edward S Luce, Narashima S Raghavan, Danny R White: Production of metal carbide articles. Lanxide Technology Company, Mark G Mortenson, Jeffrey R Ramberg, March 28, 1995: US05401694 (21 worldwide citation)

A method for manufacture of Group IVB metal carbide comprising a carbide of a metal selected from the group consisting of titanium, hafnium and zirconium ceramic composites is provided wherein a permeable mass of filler and carbon is contacted with a molten Group IVB metal. The molten metal is maint ...