Randall D.
Randall D. Lagendyk, Houma, LA US
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20090000788 | Heave Compensated Snubbing System and Method - A heave compensation system that facilitates the transfer of pipe between a floating platform and a snubbing jack. The heave compensation system includes a first end connected to the floating platform and a second end in connection with a traveling slip assembly of the snubbing jack, the heave compensation system is operable between a disengaged position and an engaged position. When the heave compensation system is in the disengaged position the traveling slip assembly moves separate and independent from the movement of the floating platform, and when the heave compensation system is in the engaged position the traveling slip assembly is locked in a constant position relative to the floating platform. | 01-01-2009 |
Randall D. Legendyk, Houma, LA US
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20130255969 | WEIGHT CONTROLLED SLIP INTERLOCK SYSTEMS AND METHODS - A weight controlled slip interlock system provides increased safety for a snubbing unit. Slips for a snubbing unit is operable between an open position and a closed position, and valves actuates the slips between the open and closed positions. Weight sensors are coupled to the slips, wherein the weight sensors measures the loads on the slips to determine whether one or more of the slips are controlling the weight of a workstring. Interlocks are coupled to the valves to prevent the valves from actuating from the closed position into the open position when the corresponding slip controls the weight of the workstring. | 10-03-2013 |
Randall D. Lowe, Jr., Chandler, AZ US
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20140264818 | POLYMER THERMAL INTERFACE MATERIAL HAVING ENHANCED THERMAL CONDUCTIVITY - A polymer thermal interface material is described that has enhanced thermal conductivity. In one example, a vinyl-terminated silicone oil is combined with a silicone chain extender, and a thermally conductive filler comprising at least 85% by weight of the material, and comprising surface wetted particles with a range of shapes and sizes. The material may be used for bonding components inside a microelectronic package, for example. | 09-18-2014 |
20140264957 | ROBUST INK FORMULATIONS FOR DURABLE MARKINGS ON MICROELECTRONIC PACKAGES AND ITS EXTENDIBILITY AS A BARRIER MATERIAL FOR THERMAL AND SEALANT MATERIALS - Methods for covalently and indelibly anchoring a polyacrylate polymer using a UV-induced polymerization process in the presence of a photoinitiator to an oxide surface are disclosed herein. The methods and compositions prepared by the methods can be used as indelible marking materials for use on microelectronic packages and as solder and sealant barriers to prevent overspreading of liquids on the oxide surfaces of microelectronic packages. | 09-18-2014 |
Randall D. Partidge, Califon, NJ US
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20140274664 | DEWAXING CATALYSTS - Provided are catalysts including: a zeolite component selected from zeolites having 10-member ring pores, zeolites having 12-member ring pores and a combination thereof, 0.1 to 5 weight % of a hydrogenation component selected from Pt, Pd, Ag, Ni, Co, Mo, W, Rh, Re, Ru, Ir and a mixture thereof, and a hydrothermally stable binder component selected from tantalum oxide, tungsten oxide, molybdenum oxide, vanadium oxide, magnesium oxide, calcium oxide, yttrium oxide, lanthanum oxide, cerium oxide, niobium oxide, tungstated zirconia, cobalt molybdenum oxide, cobalt molybdenum sulfide, nickel molybdenum oxide, nickel molybdenum sulfide, nickel tungsten oxide, nickel tungsten sulfide, cobalt tungsten oxide, cobalt tungsten sulfide, nickel molybdenum tungsten oxide and nickel molybdenum tungsten sulfide, cobalt molybdenum tungsten oxide and cobalt molybdenum tungsten sulfide, wherein the weight ratio of the zeolite to the hydrothermally stable binder is 85:15 to 25:75. | 09-18-2014 |
Randall D. Rettberg, Concord, MA US
Patent application number | Description | Published |
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20130029879 | Methods and Systems for Cell State Quantification - Systems, methods, libraries, kits, and computer software tools are provided for designing and producing engineered cells. Such engineered cells can be used for cell state quantification, such as genome, transcriptome and/or proteome quantification. In one aspect, an engineered cell having a plurality of artificially designed oligonucleotides introduced into the genome of the cell is provided. The oligonucleotides are each located in proximity of a gene of interest encoding a protein of interest, and are different from one another. The oligonucleotides can each encode a unique peptide tag for each protein of interest, wherein each peptide tag has a unique quantitatively measurable value such as mass-to-charge ratio which can be quantified by a mass spectrometer. The engineered cell is capable of expressing a plurality of proteins of interest each fused to its corresponding unique peptide tag, wherein each peptide tag is capable of being released therefrom. | 01-31-2013 |