Rozanski
Alan L. Rozanski, Franklin, WI US
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20150217918 | DISPLAY PACKAGE - A padlock, a key for unlocking the padlock, and a padlock display package are provided in combination. The padlock includes a shackle lockable with a lock body. The padlock display package includes a base member having a front side and a back side, a shackle retaining member extending from the front side of the base member, and a key retainer secured to the base member. The locked shackle of the padlock is positioned around at least a portion of the shackle retaining member to secure the padlock to the display package. The key retainer includes a cavity receiving at least a portion of the key therein, and the padlock prevents removal of the key from the key retainer. | 08-06-2015 |
Anthony Rozanski, Macungie, PA US
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20150224353 | DESTRUCTION OF CHEMICAL AGENTS BY A WICKING COMPOUND AND HIGH TEMPERATURE INCENDIARY - Compositions, devices, and methods for destroying chemical warfare agents, independent of their chemical make-up, include (i) at least one reactive metal; (ii) at least one oxidizer; and (iii) a binder. In one embodiment, the self-sustaining reactive composition includes magnesium powder, iron oxide powder, potassium perchlorate powder, and silicone gel. In another embodiment, the self-sustaining reactive composition includes manganese powder, lithium perchlorate powder, lithium peroxide powder, and silicone gel. The reactive metal(s), oxidizer(s), binder, and their respective amounts, are selected such that, following ignition of the composition, the composition is capable of producing a solid mass of ash (wicking composition) that increases the surface area of the chemical agent material and provides a site for combustion and/or thermal degradation of the chemical agent to occur. | 08-13-2015 |
Anthony J. Rozanski, Macungie, PA US
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20080251170 | Thermobaric materials and devices for chemical/biological agent defeat - A thermobaric self-sustaining reactive composition, method and device for defeating chemical or biological agents includes a first material including at least one of a Group IV or Group V metal; a second material reactive with the first material in an exothermic intermetallic reaction to generate heat sufficient to vaporize a third material; and the third material that when vaporized combusts with air producing an elevated temperature sufficient to destroy the chemical and biological agents. The device includes a container having a center core explosive driver with the self-sustaining reactive composition surrounding the center core explosive driver. | 10-16-2008 |
Carey Rozanski, Erie, PA US
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20150079529 | RADIANT HEAT INSERT - An insert for a radiant tube of a furnace including a first section adapted to absorb heat from combustion gases passing through the radiant tube and radiantly transfer the heat to a wall of the radiant tube and a second section for directing heat and gases in the radiant tube toward the first section of the insert and a system including a radiant tube and one or more such inserts. Also, a method of improving heat transfer from a radiant tube of a furnace to the material being heated including supplying an insert as described above and placing the insert into the radiant tube such that the first section corresponds to a portion of the radiant tube that is closest to the material being heated. Also, an insert for a radiant tube of a furnace including a ceramic body and a metal deposited on the surface of the ceramic body. | 03-19-2015 |
Charles S. Rozanski, Hughesville, MD US
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20140244559 | Data structure and method for performing mishap risk of a system - A computer-implemented method is provided for performing mishap risk assessment within a system. The method includes providing a first set of data including risk information associated with at least one hazard within the system, correlating all input first set of data with a second set of data defined as a plurality of mishaps of the system such that the hazard correlates with each mishap to assess mishap potential, storing the correlated first and second sets of data, and performing mishap risk assessment within the system based the correlated data including the first and second sets of data. | 08-28-2014 |
James D. Rozanski, Brigham City, UT US
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20110023744 | PROJECTILES FOR MARKING TARGETS, METHODS OF MANUFACTURING THE SAME, AND METHODS OF UTILIZING THE SAME - Projectiles containing a fluorophore composition comprising a fluorophore compound and an activator composition comprising an activator compound for marking targets are disclosed. Some embodiments include a nose structure with a cavity radially segmented into a plurality of radially isolated compartments by at least one laterally and radially extending internal wall. Additional embodiments include a fore compartment and an aft compartment sealed by a septum. Yet additional embodiments include at least one pressurized cavity and may further include a plunger positioned and configured to pierce each pressurized cavity. Methods of manufacturing target marking projectiles and methods of marking targets are also disclosed. | 02-03-2011 |
20110226493 | MAN RATED FIRE SUPPRESSION SYSTEM AND RELATED METHODS - A fire suppression system for producing an inert gas mixture having a minimal amount of carbon monoxide, particulates, or smoke. The inert gas mixture may be generated by combusting a gas generant. The gas generant may be a composition that includes hexa(ammine)-cobalt(III)-nitrate. The fire suppression system also includes a heat management system to reduce a temperature of the inert gas mixture. In one embodiment, the system includes multiple gas generators and is configured to ignite the respective gas generant of each gas generator in a predetermined, time based sequential order. For example, the gas generant of each gas generator may be ignited in a sequential order at specified time intervals. Methods of extinguishing fires are also disclosed. | 09-22-2011 |
20120006220 | PROJECTILES FOR MARKING TARGETS, METHODS OF MANUFACTURING THE SAME, AND METHODS OF UTILIZING THE SAME - Projectiles containing a fluorophore composition comprising a fluorophore compound and an activator composition comprising an activator compound for marking targets are disclosed. Some embodiments include a nose structure with a cavity radially segmented into a plurality of radially isolated compartments by at least one laterally and radially extending internal wall. Additional embodiments include a fore compartment and an aft compartment sealed by a septum. Yet additional embodiments include at least one pressurized cavity and may further include a plunger positioned and configured to pierce each pressurized cavity. Methods of manufacturing target marking projectiles and methods of marking targets are also disclosed. | 01-12-2012 |
20130175059 | MAN-RATED FIRE SUPPRESSION SYSTEM AND RELATED METHODS - A fire suppression system for producing an inert gas mixture having a minimal amount of carbon monoxide, particulates, or smoke. The inert gas mixture may be generated by combusting a gas generant. The gas generant may be a composition that includes hexa(ammine)-cobalt(III)-nitrate. The fire suppression system also includes a heat management system to reduce a temperature of the inert gas mixture. In one embodiment, the system includes multiple gas generators and is configured to ignite the respective gas generant of each gas generator in a predetermined, time based sequential order. For example, the gas generant of each gas generator may be ignited in a sequential order at specified time intervals. Methods of extinguishing fires are also disclosed. | 07-11-2013 |
20140048291 | MAN RATED FIRE SUPPRESSION SYSTEM AND RELATED METHODS - A fire suppression system for producing an inert gas mixture having a minimal amount of carbon monoxide, particulates, or smoke. The inert gas mixture may be generated by combusting a gas generant. The gas generant may be a composition that includes hexa(ammine)-cobalt(III)-nitrate. The fire suppression system also includes a heat management system to reduce a temperature of the inert gas mixture. A method of extinguishing fires is also disclosed. | 02-20-2014 |
Shahaf Rozanski, Nes-Ziona IL
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20140149488 | SYSTEM AND METHOD FOR ENGAGING A MOBILE DEVICE - A system and method for engaging a mobile device. An event related to an application may be captured on a mobile device by code embedded in the application. Information related to the event may be sent to a server. A server may compute a next best action to take. A communication channel may be selected based on the event and based on a set of rules. A session may be established according to the selected communication channel. | 05-29-2014 |