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Wnuk, US
Andrew Wnuk, San Jose, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110078198 | AUTOMATIC SERIAL NUMBER AND REQUEST ID ALLOCATION IN A REPLICATED (CLONED) CERTIFICATE AUTHORITY AND DATA RECOVERY MANAGEMENT TOPOLOGY - A Serial Number Management System (SNMS) automatically manages the allocation of unique serial numbers to certificate authority servers in a replicated server environment. The SNMS automatically detects that a Certificate Authority (CA) server has a need for a new set of unused serial numbers. The SNMS obtains a global serial number that is available to be used by any of the CA servers in a replication domain. The SNMS determines the new set of the unused serial numbers using the global serial number and updates the global serial number. | 03-31-2011 |
| 20110078304 | Automatic Server Administration of Serial Numbers in a Replicated Certificate Authority Topology - A Serial Number Management System (SNMS) automatically manages the allocation of unique serial numbers to certificate authority servers in a replicated server environment. The SNMS automatically detects that a Certificate Authority (CA) server has a need for additional unused serial numbers. The SNMS identifies a provider CA server that has unused serial numbers. The SNMS obtains a portion of the unused serial numbers from the provider CA server. | 03-31-2011 |
| 20110078772 | LDAP SECURITY DOMAIN DATA STORAGE - A Security Domain Access System (SDAS) provides highly available security domain data. The SDAS receives a request pertaining to a security domain. The request includes credentials for accessing a security domain manager server. The SDAS selects one of a plurality of security domain manager servers to process the request based on the credentials and the availability of each of the plurality of security domain manager servers. The SDAS forwards the request to the selected security domain manager server. | 03-31-2011 |
| 20110126001 | AUTOMATIC CERTIFICATE RENEWAL - A method and system for automatic certificate renewal is described. | 05-26-2011 |
Andrew Julian Wnuk, Wyoming, OH US
| Patent application number | Description | Published |
|---|---|---|
| 20080207792 | Method Of Surface Treating Particulate Material Using Electromagnetic Radiation - The present disclosure relates to a method of surface treating particulate materials with electromagnetic radiation, in particular a method of cross-linking superabsorbent polymer particles using UV irradiation. The method is carried out with a so-called roll reactor, which comprises a rotating roll and an irradiation source. Radical former molecules can be applied on the surface of superabsorbent polymer particles. The particulate material is fed onto the surface of the roll and is irradiated while moved with the rotating roll. The irradiation source is provided such that the radiation emitted by the irradiation source is able to reach at least part of the particulate material that has been fed onto the surface of the roll. The irradiation source for use in the method of the present disclosure is able to emit UV radiation of a wavelength between 201 nm and 400 nm. The present disclosure also relates to absorbent articles comprising surface treated superabsorbent particles made by said method. | 08-28-2008 |
| 20100248939 | METHOD OF SURFACE TREATING PARTICULATE MATERIAL USING ELECTROMAGNETIC RADIATION - A method of surface treating particulate materials with electromagnetic radiation that is carried out with a so-called roll reactor comprising a rotating roll and an irradiation source. Radical former molecules can be applied on the surface of superabsorbent polymer particles, which are fed onto the surface of the roll and irradiated while moved with the rotating roll. The irradiation source is provided such that the radiation is able to reach at least part of the particulate material that has been fed onto the surface of the roll. | 09-30-2010 |
Joseph A. Wnuk, Westerly, RI US
| Patent application number | Description | Published |
|---|---|---|
| 20110081436 | EXTRUDER FEED SECTION WITH PIVOTABLE FEED ROLL ASSEMBLY - A feed section for an extruder machine including a housing having one or more walls defining an interior area within the housing. The feed section includes a shaft mounted to one or more of the walls and a feed roll assembly disposed at least partially in the interior area and pivotally coupled to the shaft for pivotal movement of the feed roll assembly relative to the housing. The feed roll assembly includes a seat portion releasably coupled to a cap portion. The cap portion is pivotally coupled to the shaft for pivotal movement of the cap portion relative to the housing and the seat portion. The feed roll assembly includes a feed roll rotatingly mounted between the seat and cap portions for conveying material to be extruded between an inlet and outlet of the housing. | 04-07-2011 |
Stephen Wnuk, Lunenburg, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20100098961 | Thermal barrier coatings using intermediate TCE nanocomposites - An intermediate thermal expansion coefficient coating including an NiCoCrAly alloy. The coating contains nanoparticles of the alloy and alumina. A nanocomposite coating is placed on metals to protect them from high gas temperatures by providing thermal insulation. The nanocomposite coating includes a bond coating, an intermediate thermal expansion coefficient coating, and a ceramic top coat. The intermediate thermal expansion coefficient coating comprises a NiCoCrAly alloy and allumina nanoparticles and has a ceramic top coat which is based on zirconi or high purity alumina. | 04-22-2010 |
Vincent Wnuk, Lunenburg, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20100098961 | Thermal barrier coatings using intermediate TCE nanocomposites - An intermediate thermal expansion coefficient coating including an NiCoCrAly alloy. The coating contains nanoparticles of the alloy and alumina. A nanocomposite coating is placed on metals to protect them from high gas temperatures by providing thermal insulation. The nanocomposite coating includes a bond coating, an intermediate thermal expansion coefficient coating, and a ceramic top coat. The intermediate thermal expansion coefficient coating comprises a NiCoCrAly alloy and allumina nanoparticles and has a ceramic top coat which is based on zirconi or high purity alumina. | 04-22-2010 |