Patent application number | Description | Published |
20110262668 | DELAMINATION RESISTANT MULTILAYER CONTAINERS - The present invention provides a multilayer plastic bottle comprising layers of PET and a polyamide such as, for example, MXD6, that is free from occurrence of delamination upon dropping or upon exposure to impact. The present inventors have found that when forming a barrier layer containing an adhesion promoting agent according to the present invention, an impact energy applied to the barrier layer is well reduced and the resultant multilayer bottle is improved in interlaminar bonding strength and prevented from suffering from delamination upon dropping, etc. | 10-27-2011 |
20110275742 | OXYGEN SCAVENGING ADDITIVES FOR PLASTIC CONTAINERS - The present invention provides a composition comprising: a base polymer; at least one compound having the structure of Formula I or II | 11-10-2011 |
20120283366 | ACTIVATED OXYGEN SCAVENGING COMPOSITIONS FOR PLASTIC CONTAINERS - The present invention provides a composition comprising: a polyester base polymer; at least one non-polymeric oxidizable organic compound; at least one transition metal in a positive oxidation state, said metal being present in the composition in an amount of from about 10 to about 400 ppm; and at least one activator compound selected from the group consisting of: (i) a polyester ionomer containing a sulfoisophthalate moiety, (ii) a polyol derivative and (iii) a N-hydroxyimide, wherein the at least one non-polymeric oxidizable organic compound is present in an amount of from about 0.10 to about 10 weight percent of the composition, and wherein the at least one activator compound is present in an amount of from about 0.01 to about 5 weight percent of the composition. The compositions of the present invention do not exhibit an induction period prior to the onset of oxygen scavenging upon formation into a container. | 11-08-2012 |
20130306905 | LOW PHOSPHOROUS OXYGEN SCAVENGING COMPOSITIONS REQUIRING NO INDUCTION PERIOD - The present invention provides a composition comprising: a polyester base polymer; at least one non-polymeric oxidizable organic compound; at least one transition metal in a positive oxidation state, said metal being present in the composition in an amount of from about 10 to about 400 ppm, wherein the polyester base polymer comprises less than about 40 ppm phosphorous. The compositions of the present invention do not exhibit an induction period prior to the onset of oxygen scavenging upon formation into a container. | 11-21-2013 |
20140034641 | IN-SITU POLYMERIZED POLYMER-PLATINUM GROUP METAL NANOPARTICLE BLENDS AND OXYGEN SCAVENGING CONTAINERS MADE THEREFROM - A method of making a polymer composition comprising dispersed nanoparticles of an oxygen scavenging catalyst includes polymerizing one or more monomers or pre-polymers in the presence of a platinum group metal catalyst or precursor to obtain a polymer composition having dispersed nanoparticles of the platinum group metal. The oxygen scavenging catalyst is added during the polymerization as a solution of the platinum group metal or a compound thereof and a polyhydric alcohol (e.g., glycols). The food or beverage containers made from such polymer compositions exhibit high clarity and high oxygen scavenging properties. | 02-06-2014 |
20150197623 | OXYGEN SCAVENGING COMPOSITIONS FOR PLASTIC CONTAINERS - The present invention provides an oxygen scavenging composition for incorporation into a wall of a package. The composition comprises a polyester base polymer, at least one oligomeric, oxidizable poly(alkylene ether) glycol-α,ω-diester having the formula | 07-16-2015 |
Patent application number | Description | Published |
20120131160 | DISASSOCIATING AND FREEING MANAGED CONNECTIONS BASED ON USAGE PATTERNS - A method, system and computer program product for disassociating and freeing managed connection objects. Managed connections are dissociated from their connection handles based on their usage patterns, determined by various connection parameters, which more effectively reduces the idle time of the managed connections. The managed connections whose cost of disassociating and reassociating is less than the cost of keeping the managed connections idle are targeted and released to the free pool of managed connections via the dissociation from its connection handles. | 05-24-2012 |
20130297797 | PROVISION OF OTHER THAN 1:1 RESOURCE MAPPING - A method for providing other than a 1:1 resource mapping may include receiving an indication of a selected resource reference element, receiving an indication of at least one resource to be associated with the resource reference element, and generating, via processing circuitry, a registry including a declarative policy defining an association of the selected resource reference element and the at least one resource in which the registry defines an other than 1:1 mapping between resource reference elements and resources. | 11-07-2013 |
20130297799 | PROVISION OF OTHER THAN 1:1 RESOURCE MAPPING - A method for providing other than a 1:1 resource mapping may include receiving an indication of a selected resource reference element, receiving an indication of at least one resource to be associated with the resource reference element, and generating, via processing circuitry, a registry including a declarative policy defining an association of the selected resource reference element and the at least one resource in which the registry defines an other than 1:1 mapping between resource reference elements and resources. | 11-07-2013 |
20150095709 | PATTERN ORIENTED DATA COLLECTION AND ANALYSIS - A process for determining a problematic condition while running software includes: loading a first pattern data set having a symptom code module, a problematic condition determination module, and a set of responsive action module(s), generating a runtime symptom code in response to a first problematic condition being caused by the running of the software on the computer, determining that the runtime symptom code matches a symptom code corresponding to the first pattern data set, determining that the first problematic condition caused the generation of the runtime symptom code, and taking a responsive action from a set of responsive action(s) that corresponds to the first problematic condition. | 04-02-2015 |
20150095722 | PATTERN ORIENTED DATA COLLECTION AND ANALYSIS - A process for determining a problematic condition while running software includes: loading a first pattern data set having a symptom code module, a problematic condition determination module, and a set of responsive action module(s), generating a runtime symptom code in response to a first problematic condition being caused by the running of the software on the computer, determining that the runtime symptom code matches a symptom code corresponding to the first pattern data set, determining that the first problematic condition caused the generation of the runtime symptom code, and taking a responsive action from a set of responsive action(s) that corresponds to the first problematic condition. | 04-02-2015 |
Patent application number | Description | Published |
20130116987 | BIDOMAIN SIMULATOR - A method, performed by a computer device, may include selecting one or more input and output points in an executable graphical model in a modeling application and simulating the executable graphical model over a plurality of time points. The method may further include generating a time domain response plot for the executable graphical model based on the simulating; obtaining matrices of partial derivatives based no the selected one or more input and output points at particular time points of the plurality of time points; generating a frequency domain response plot for the executable graphical model based on the obtained matrices of partial derivatives; and generating a bidomain simulator user interface, the bidomain simulator user interface including the generated time domain response plot and the generated frequency domain response plot. | 05-09-2013 |
20130116988 | AUTOMATIC SOLVER SELECTION - A method, performed by a computer device, may include receiving a request to automatically select a solver for a simulation of an executable graphical model, determining a Jacobian matrix for the executable graphical model, calculating a stiffness of the executable graphical model based on the determined Jacobian matrix, and determining whether the calculated stiffness is greater than a stiffness threshold. The method may further include automatically selecting an implicit solver as the solver for the simulation, in response to determining that the calculated stiffness is greater than the stiffness threshold, automatically selecting an explicit solver as the solver for the simulation, in response to determining that the calculated stiffness is not greater than the stiffness threshold, and performing the simulation using the selected solver. | 05-09-2013 |
20130116989 | PARAMETER TUNING - A method, performed by a computer device, may include interacting with one or more plots associated with a simulation of an executable graphical model, receiving a selection of one or more target output points associated with the one or more plots; receiving a selection identifying one or more parameters, associated with the one or more plots, of one or more system parameters, associated with the executable graphical model; and generating an inverse parameter Jacobian matrix. The inverse parameter Jacobian matrix may correspond to an inverse of a parameter Jacobian matrix that relates one or more partial derivatives of the one or more system parameters to one or more system equations. The method may further include determining one or more tuning values for the selected one or more parameters based on the generated inverse parameter Jacobian matrix and based on the selected one or more target output points. | 05-09-2013 |
20130198713 | CODE GENERATION FOR CONTROL DESIGN - A method, performed by a computer device, includes obtaining an in-memory representation of computer code from a block step method of an executable model in a modeling application, wherein the computer code in-memory representation includes one or more variables. The method also includes identifying, from the one or more variables, a subset of persistent variables and determining if any of the one or more variables in the subset of persistent variables are state variables. When none of the subset of persistent variables are state variables, a block output method is generated based on the computer code in-memory representation and the one or more variables. When the subset of persistent variables includes a state variable, both the block output method and a block update method are generated based on the computer code in-memory representation and the one or more variables. | 08-01-2013 |