Ralph G.
Ralph G. Austin, Jr., Wilmington, NC US
Ralph G. Czerepinksi, Midland, MI US
Patent application number | Description | Published |
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20100247920 | AQUEOUS POLYMER DISPERSIONS AND PRODUCTS FROM THOSE DISPERSIONS - A method for forming a heat sealable coating on a substrate, wherein the substrate is formed from at least one oriented polymer is shown. The method includes depositing an aqueous polymer dispersion on the substrate, wherein the aqueous polymer dispersion includes (A) at least one thermoplastic resin; (B) at least one dispersing agent; and (C) water; wherein the dispersion has a pH of less than 12, and drying the dispersion to form a first layer. | 09-30-2010 |
20110166290 | AQUEOUS POLYMER DISPERSIONS AND PRODUCTS FROM THOSE DISPERSIONS - A method for forming a heat sealable coating on a substrate, wherein the substrate is formed from at least one oriented polymer is shown. The method includes depositing an aqueous polymer dispersion on the substrate, wherein the aqueous polymer dispersion includes (A) at least one thermoplastic resin; (B) at least one dispersing agent; and (C) water; wherein the dispersion has a pH of less than 12, and drying the dispersion to form a first layer. | 07-07-2011 |
20120238692 | AQUEOUS POLYMER DISPERSIONS AND PRODUCTS FROM THOSE DISPERSIONS - A method for forming a heat sealable coating on a substrate, wherein the substrate is formed from at least one oriented polymer is shown. The method includes depositing an aqueous polymer dispersion on the substrate, wherein the aqueous polymer dispersion includes (A) at least one thermoplastic resin; (B) at least one dispersing agent; and (C) water; wherein the dispersion has a pH of less than 12, and drying the dispersion to form a first layer. | 09-20-2012 |
20130131260 | AQUEOUS POLYMER DISPERSIONS AND PRODUCTS FROM THOSE DISPERSIONS - A method for forming a heat sealable coating on a substrate, wherein the substrate is formed from at least one oriented polymer is shown. The method includes depositing an aqueous polymer dispersion on the substrate, wherein the aqueous polymer dispersion includes (A) at least one thermoplastic resin; (B) at least one dispersing agent; and (C) water; wherein the dispersion has a pH of less than 12, and drying the dispersion to form a first layer. | 05-23-2013 |
20140058034 | AQUEOUS POLYMER DISPERSIONS AND PRODUCTS FROM THOSE DISPERSIONS - A method for forming a heat sealable coating on a substrate, wherein the substrate is formed from at least one oriented polymer is shown. The method includes depositing an aqueous polymer dispersion on the substrate, wherein the aqueous polymer dispersion includes (A) at least one thermoplastic resin; (B) at least one dispersing agent; and (C) water; wherein the dispersion has a pH of less than 12, and drying the dispersion to form a first layer. | 02-27-2014 |
Ralph G. Depalma, Washington, DC US
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20110160813 | METHOD AND APPARATUS FOR POSITIONING A CATHETER RELATIVE TO AN ANATOMICAL JUNCTION - An electrode catheter is introduced into a vein or other hollow anatomical structure, and is positioned at a treatment: site within the structure. The end of the catheter is positioned near a junction formed in the structure. This junction can be the sapheno-femoral junction. The position of the catheter near the junction is determined based on a signal from a device associated with the catheter within the structure. A fiber optic filament which emits light is used with the catheter or a guide wire over which the catheter is advanced. The light is visible externally from the patient. The light dims and may no longer externally visible at the sapheno-femoral junction where the catheter moves past the deep fascia and toward the deep venous system. The position of the catheter can be determined based on this external observation. The position of the catheter can also be determined based on measured parameters such as temperature or flow rate within the structure, and the measured changes in one or more of these parameters as the catheter nears the junction. The hollow anatomical structure can be compressed for this procedure. The position of the catheter can also be determined mechanically by including a hook-shaped tip on the catheter or guide wire which would physically engage the junction. | 06-30-2011 |
Ralph G. O'Brien, Old Bridge, NJ US
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20160044177 | AUTOMATIC PERSONALIZED OUTGOING MESSAGE DELIVERY RESPONSIVE TO UNANSWERED INCOMING AUDIO / VIDEO CALL - A system and a process for automatically providing an outgoing message in response to an unanswered incoming call are disclosed. The process includes providing one or more of an outgoing video message, an outgoing audio message, and an outgoing audio-visual message. In some embodiments, the process includes providing a personalized message in response to an unanswered incoming call. In some embodiments, a personalized message is based on at least one of a group profile and an individual profile. The process provides a personalized outgoing group message when a caller of an unanswered incoming call is associated with a particular group profile. The process provides a personalized outgoing individual message when a caller of an unanswered incoming call is associated with a particular individual profile. | 02-11-2016 |
Ralph G. Tator, Las Vegas, NV US
Patent application number | Description | Published |
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20140157808 | REFRIGERATION SYSTEM CONTROLLED BY REFRIGERANT QUALITY WITHIN EVAPORATOR - A system for cooling a refrigerant includes (a) an evaporator comprising one or more lengths of tubing each having an upstream first cross-sectional area and a second downstream cross-sectional area, the second cross-sectional area being greater than the first cross-sectional area, the expansion in cross-sectional area between the first circular cross-sectional area and the second circular cross-sectional area being smooth and continuous; and (b) a compressor and a condenser for converting the refrigerant from a gas to a liquid for introduction into the evaporator. | 06-12-2014 |