Patent application number | Description | Published |
20080227891 | METHODS FOR MAKING CONCRETE COMPOSITIONS - A method of making a cementitious composition that includes combining cement, water and optionally aggregates and optionally additives to form an aqueous cement slurry; adding expanded polymer particles to the aqueous cement slurry; and forming a dispersion of expanded polymer particles in the aqueous cement slurry. The expanded polymer particles have an average particle diameter of from 200 μm to 5,000 μm, a bulk density of from 0.02 g/cc to 0.64 g/cc, and an aspect ratio of from 1 to 3. | 09-18-2008 |
20090081446 | METHOD OF PLACING CONCRETE - A method of placing a concrete compositions including a) combining 3-40 volume percent cement, 5-50 volume percent fine aggregate, 5-50 volume percent coarse aggregate, and 10-22 volume percent water; b) adding 1.5-40 volume percent of prepuff particles to form a concrete composition; and c) pumping the concrete composition to a point higher in elevation than the delivery point of the concrete to place the concrete. The concrete composition contains less than 30 volume percent of other light weighting aggregates and the prepuff particles have an average particle diameter of from 0.2 mm to 8 mm, a bulk density of from 0.02 g/cc to 0.64 g/cc, an aspect ratio of from 1 to 3. The slump value of the placed concrete measured according to ASTM C 143 is greater than 1 inch and the concrete has a density of from about 40 to about 135 lb./ft | 03-26-2009 |
20090093558 | MOBILE EXPANDED POLYMER PROCESSING SYSTEMS AND METHODS - A mobile polymer system. The system includes a mobile platform and a heat generating device mounted to the mobile platform. The system also includes a polymer expansion unit mounted to the mobile platform, wherein the polymer expansion unit is adapted to expand a polymer, using heat generated by the heat generating device, at a location of the mobile polymer expansion system to create an expanded polymer that can be used to create an expanded polymeric product that is comprised of the expanded polymer. | 04-09-2009 |
20100098524 | LIGHTWEIGHT CONCRETE COMPOSITIONS - A lightweight ready-mix concrete composition that contains 8-20 volume percent cement, 11-50 volume percent sand, 10-31 volume percent prepuff particles, 9-40 volume percent coarse aggregate, and 10-22 volume percent water, where the sum of components used does not exceed 100 volume percent;. The prepuff particles have an average particle diameter of from 0.2 mm to 8 mm, a bulk density of from 0.02 g/cc to 0.64 g/cc, an aspect ratio of from 1 to 3. The slump value of the composition measured according to ASTM C 143 is from 2 to 8 inches. After the lightweight ready-mix concrete composition is set for 28 days, it has a compressive strength of at least 1400 psi as tested according to ASTM C39. | 04-22-2010 |
20110003904 | Lightweight Concrete Compositions - A lightweight ready-mix concrete composition that contains 8-20 volume percent cement, 11-50 volume percent sand, 10-31 volume percent prepuff particles, 9-40 volume percent coarse aggregate, and 10-22 volume percent water, where the sum of components used does not exceed 100 volume percent;. The prepuff particles have an average particle diameter of from 0.2 mm to 8 mm, a bulk density of from 0.02 g/cc to 0.64 g/cc, an aspect ratio of from 1 to 3. The slump value of the composition measured according to ASTM C 143 is from 2 to 8 inches. After the lightweight ready-mix concrete composition is set for 28 days, it has a compressive strength of at least 1400 psi as tested according to ASTM C39. | 01-06-2011 |
Patent application number | Description | Published |
20100018838 | System, Apparatus, and Method for Conveying a Plurality of Containers - A system, apparatus, and method for conveying a plurality of deformable containers for rotary apparatuses. The system can include a conveyor apparatus, an in-feed apparatus, and a rotary apparatus. The in-feed apparatus can be configured to receive the containers from the conveyor apparatus, and may include a first feed screw and a second feed screw. The rotary apparatus can be configured to receive the plurality of filled and sealed containers after the in-feed apparatus. The in-feed apparatus also may be configured to create space between adjacent ones of the filled and sealed containers, with the first and second feed screws acting on the containers to create the spacing between the containers. The space created between adjacent ones of the filled and sealed containers may be for receipt by said rotary apparatus. The first feed screw may be configured to be positioned substantially directly above the containers, and the second feed screw may be positioned so as to act on the sidewall of the plurality of sealed and filled containers. | 01-28-2010 |
20100055369 | Preform For Making Plastic Container - A preform for making a lightweighted plastic container includes a finish portion having at least one external thread defined thereon that has a first sidewall thickness, a main body portion, an end cap, and a transition portion between the end cap and the main body portion. The end cap has a second side wall thickness that preferably is not less than said first side wall thickness of the finish portion. The main body portion is preferably unstepped, and the outer surface of the transition portion is preferably concave as viewed in longitudinal cross-section. In addition, the transition portion preferably extends for a longitudinal distance, and a ratio of the longitudinal distance to an outer radius of the end cap is preferably within a range of about 0.3 to about 0.9 | 03-04-2010 |
20100140278 | Plastic Container Having A Deep-Inset Base - A plastic container of the type that may be formed from a material such as PET using the stretch blow molding process includes a main body portion and a base portion that is characterized by a relatively tall and narrow profile above the standing ring and that has a deep inset recess defined therein. The deep inset recess is defined in part by an upstanding inner sidewall portion adjacent to the standing ring that has a height that may be greater than about 0.35 inch. The upstanding inner sidewall portion may have a substantially straight portion that is substantially parallel to a substantially straight portion of an outer sidewall of the base. | 06-10-2010 |
20100140838 | Method of Making Plastic Container Having A Deep-Inset Base - A method of plastic container having a deep inset base of the type that has a standing ring for supporting the container on a flat surface includes steps of molding a container blank having a standing ring and a base projection portion that is formed beneath the standing ring and relatively displacing the base projection portion upwardly with respect to the standing ring until the base projection portion is positioned above the standing ring. An improved plastic container having a deep inset base is also disclosed. | 06-10-2010 |
20100170199 | Method and System for Handling Containers - Method and system for handling a plurality of hot-filled and capped containers having temporary deformations or distortions caused by vacuums induced in the containers. For each container, temporary deformations are confined or directed to a particular portion of the container. Annular hoop rings can be provided to confine the temporary deformations to a smooth sidewall portion of the container between the annular hoop rings. Alternatively, one or more supplemental vacuum panels can be provided to confine or direct the temporary deformation thereto. The annular hoop rings and the one or more supplemental vacuum panels can provide for substantially stable touch points for the container. The containers are conveyed with temporary deformations such that substantially stable contact points of each container are in contact with corresponding substantially stable contact points of other containers. After the conveying, a moveable element in a bottom end of each container is activated substantially permanently to remove the vacuum in the container. | 07-08-2010 |
20100170200 | METHOD AND SYSTEM FOR HANDLING CONTAINERS - Method and system for handling a plurality of hot-filled and capped containers having temporary deformations or distortions caused by vacuums induced in the containers. For each container, temporary deformations are confined or directed to a particular portion of the container. Annular hoop rings can be provided to confine the temporary deformations to a smooth sidewall portion of the container between the annular hoop rings. Alternatively, one or more supplemental vacuum panels can be provided to confine or direct the temporary deformation thereto. The annular hoop rings and the one or more supplemental vacuum panels can provide for substantially stable touch points for the container. The containers are conveyed with temporary deformations such that substantially stable contact points of each container are in contact with corresponding substantially stable contact points of other containers. After the conveying, a moveable element in a bottom end of each container is activated substantially permanently to remove the vacuum in the container. | 07-08-2010 |
20110185677 | Method and System for Handling Containers - Method and system for handling a plurality of hot-filled and capped containers having temporary deformations or distortions caused by vacuums induced in the containers. For each container, temporary deformations are confined or directed to a particular portion of the container. Annular hoop rings can be provided to confine the temporary deformations to a smooth sidewall portion of the container between the annular hoop rings. Alternatively, one or more supplemental vacuum panels can be provided to confine or direct the temporary deformation thereto. The annular hoop rings and the one or more supplemental vacuum panels can provide for substantially stable touch points for the container. The containers are conveyed with temporary deformations such that substantially stable contact points of each container are in contact with corresponding substantially stable contact points of other containers. After the conveying, a moveable element in a bottom end of each container is activated substantially permanently to remove the vacuum in the container. | 08-04-2011 |
20110266293 | Deformable Container With Hoop Rings - Method and system for handling a plurality of hot-filled and capped containers having temporary deformations or distortions caused by vacuums induced in the containers. For each container, temporary deformations are confined or directed to a particular portion of the container. Annular hoop rings can be provided to confine the temporary deformations to a smooth sidewall portion of the container between the annular hoop rings. Alternatively, one or more supplemental vacuum panels can be provided to confine or direct the temporary deformation thereto. The annular hoop rings and the one or more supplemental vacuum panels can provide for substantially stable touch points for the container. The containers are conveyed with temporary deformations such that substantially stable contact points of each container are in contact with corresponding substantially stable contact points of other containers. After the conveying, a moveable element in a bottom end of each container is activated substantially permanently to remove the vacuum in the container. | 11-03-2011 |
20120104010 | Systems, Methods, and Apparatuses for Cooling Hot-Filled Containers - The disclosed subject matter relates to container holders configured to provide a stable support for containers held therein in order to efficiently cool the containers after a hot-fill or elevated temperature operation. The container holders can allow a fluid to pass from an inner volume of the container holder to outside the container holder through side apertures and/or an open bottom end of the container holder. Groups of containers and container holders also may be cooled. Groups of containers in container holders can be processed through the cooling operation at a speed different from a speed for holderless containers. | 05-03-2012 |
20120240515 | Method and System for Handling Containers - Method and system for handling a plurality of hot-filled and capped containers having temporary deformations or distortions caused by vacuums induced therein. The deformations are confined or directed to a particular portion of the container. Annular hoop rings can be provided to confine the temporary deformations to a smooth sidewall portion of the container between the annular hoop rings. Alternatively, one or more supplemental vacuum panels can be provided to confine or direct the temporary deformation thereto. The annular hoop rings and the one or more supplemental vacuum panels can provide for substantially stable touch points for the container. The containers are conveyed with temporary deformations such that substantially stable contact points of each container are in contact with corresponding substantially stable contact points of other containers. After the conveying, a moveable element it a bottom end of each container is activated substantially permanently to remove the vacuum. | 09-27-2012 |
20120248127 | Closure for Use in Hotfill and Pasteurization Applications - A closure for a container comprising: a cap member having a top surface, a bottom surface, and a wall portion having an outer surface and an inner surface wherein the inner surface comprises threads to mate with a threaded neck finish of a container; and a composite disc member comprising: an outer vent ring portion comprising a plurality of vents wherein the vents provide a path for air to travel from an area near the threads to an area between the bottom surface of the cap member and the composite disc member, wherein the vent ring portion functions to seal liquid in the container thus preventing the liquid from traveling to the threaded neck finish of the container; and an inner flexible diaphragm portion in a first position, wherein the flexible diaphragm portion flexes to compensate for a change in pressure within the container by transitioning downwards in response to a decrease in pressure and/or by transitioning upwards in response to an increase in pressure. | 10-04-2012 |
20130306660 | HOT FILL CONTAINER HAVING SUPERIOR CRUSH RESISTANCE - A hot fill plastic container has a dome portion with a convex outer surface that defines a maximum outer diameter of the container so as to extend outwardly beyond a main body portion of the container. The generally egg-shaped dome portion enhances the crush resistance of the dome and provides a point of contact between containers when they are placed adjacent to one another. A circumferential stiffening groove may be provided near a lower end of the dome portion. | 11-21-2013 |
20150028040 | BASE FOR HOT-FILL PLASTIC CONTAINERS - A base structure for a blow-molded container having an annular sidewall and a central longitudinal axis, the base structure comprising: a bottom portion; an annular support heel positioned between the sidewall and the bottom portion, wherein the annular support heel is angled inwardly at an angle θ of from about 15° to about 46° relative a plane extending from the sidewall; and a first rounded edge between the sidewall and the annular support heel and a second rounded edge between the annular support heel and the bottom portion, wherein each of the first and second rounded edge has a radius of curvature of from about 1.0 mm to about 14.0 mm, and wherein the blow-molded container comprises a material selected from the group consisting of polyethylene terephthalate and polypropylene. | 01-29-2015 |