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Results 1-10 of 981,955 for Criteria: Office(s):all Language:EN Stemming: true maximize
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Analysis

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TitleCtrPubDate
Int.ClassAppl.NoApplicantInventor
1. WO/2016/148689 UNIDIRECTIONAL GRATING-BASED BACKLIGHTING EMPLOYING AN ANGULARLY SELECTIVE REFLECTIVE LAYERWO22.09.2016
G02B 6/10
PCT/US2015/020841LEIA INC.FATTAL, David A.
Unidirectional grating-based backlighting includes a light guide and a diffraction grating at a surface of the light guide. The light guide is to guide a light beam and the diffraction grating is configured to couple out a portion of the guided light beam using diffractive coupling and to direct the coupled-out portion away from the light guide as a primary light beam at a principal angular direction. The diffraction grating is to further produce a secondary light beam directed into the light guide at an opposite one of the principal angular direction. The unidirectional grating-based backlighting further includes an angularly selective reflective layer within the light guide adjacent to the light guide surface that is configured to reflectively redirect the diffractively produced, secondary light beam out of the light guide in the direction of the primary light beam.

2. WO/2016/148690 TURBINE BLADE WITH A NON-CONSTRAINT FLOW TURNING GUIDE STRUCTUREWO22.09.2016
F01D 5/18
PCT/US2015/020847SIEMENS ENERGY, INC.LEE, Ching-Pang
A turbine blade including a pressure sidewall (24) and a suction sidewall (26), and at least one partition rib (34) extends between the pressure and suction sidewalls (24, 26) to define a serpentine cooling path (35) having adjacent cooling channels (36a, 36b, 36c) extending in the spanwise direction (S) within the airfoil (12). A flow turning guide structure (50) extends around an end of the at least one partition rib (34) and includes a first element (52) extending from the pressure sidewall (24) to a lateral location in the cooling path between the pressure and suction sidewalls (24, 26), a second element (54) extending from the suction sidewall (26) to the lateral location in the cooling path between the pressure and suction sidewalls (24, 26). The first and second elements (52, 54) include respective distal edges (52d, 54d) that laterally overlap each other at the lateral location.

3. WO/2016/148671 METHODS AND SYSTEMS FOR MAINTAINING OPTICAL TRANSPARENCY DURING PARTICLE IMAGE ACQUISITIONWO22.09.2016
E21B 47/002
PCT/US2015/020348HALLIBURTON ENERGY SERVICES, INC.ROWE, Mathew Dennis
Fouling of or damage to an electromagnetic radiation-transparent window can preclude one from obtaining satisfactory images with an image acquisition unit, such as a camera. Certain types of environments may be particularly prone toward promoting fouling or damage, and manual cleaning or repair of an electromagnetic radiation-transparent window may be difficult in some circumstances. These issues may be particularly prevalent when imaging drill cuttings and other solids obtained from a wellbore due to the complex sampling environment in which these solids are often disposed. Wellhead imaging systems can comprise: a flow pathway extending from a wellbore; an electromagnetic radiation-transparent window external to the wellbore establishing optical communication with the flow pathway; an image acquisition unit in optical communication with the flow pathway via the electromagnetic radiation-transparent window; and a movable barrier that is also electromagnetic radiation-transparent and is disposed between the electromagnetic radiation-transparent window and the flow pathway.

4. WO/2016/148675 PATIENT-SPECIFIC SURGICAL DEVICES, SYSTEMS, AND METHODSWO22.09.2016
A61B 17/56
PCT/US2015/020414WRIGHT MEDICAL TECHNOLOGY, INC.STEMNISKI, Paul, M.
A surgical device includes a body having a first side with a first surface that is complementary to a surface of a foreign object disposed within a patient based on preoperative imaging of the patient. The body defines at least one hole positioned relative to the body to facilitate insertion of an elongate device at a predetermined location relative to the foreign object.

5. WO/2016/148710 COATING COMPOSITIONS COMPRISING UREA AND MULTILAYER COATING SYSTEMS COMPRISING THE SAMEWO22.09.2016
C08K 5/21
PCT/US2015/021213PPG INDUSTRIES OHIO, INC.ISTIVAN, Stephen, Brian
A liquid coating composition is provided, comprising (i) a film-forming compound; (ii) an aqueous medium; and (iii) a urea compound. Methods of using such a coating composition, and multilayer coating systems including such a coating composition are also disclosed.

6. WO/2016/148720 WELLBORE ISOLATION DEVICES AND METHODS OF USEWO22.09.2016
E21B 33/12
PCT/US2015/021479HALLIBURTON ENERGY SERVICES, INC.STAIR, Todd Anthony
A wellbore isolation device includes an elongate body and a packer assembly disposed about the elongate body and including upper and lower sealing elements positioned axially between an upper shoulder and a lower shoulder, a spacer interposing the upper and lower sealing elements and having an annular body that provides an upper end, a lower end, and a recessed portion extending between the upper and lower ends. An upper cover sleeve is coupled to the upper shoulder, and a lower cover sleeve is coupled to the lower shoulder. An upper support shoe has a lever arm extending over the upper sealing element and a jogged leg received within a gap defined between the upper cover sleeve and shoulder. A lower support shoe has a lever arm extending over the lower sealing element and a jogged leg received within a gap defined between the lower cover sleeve and shoulder.

7. WO/2016/148678 OVERCOMING THE RETARDATION OF CEMENT HYDRATION FROM DISPERSING AGENTS USED IN SUSPENSION OF ADDITIVESWO22.09.2016
C09K 8/42
PCT/US2015/020485HALLIBURTON ENERGY SERVICES, INC.PEARL, William, Cecil, Jr.
A method of cementing a subterranean formation includes forming a cement composition comprising cementitious material, an aqueous base fluid, a nano-reinforcement particle suspension comprising a surfactant; and pozzolanic material; introducing the cement composition into a subterranean formation; and allowing the cement composition to set in the subterranean formation. A method of making a cement composition includes combining cementitious material, an aqueous base fluid, a nano-reinforcement particle suspension comprising a surfactant, and a pozzolanic material, where the rate of hydration of the surfaces of the cementitious material is less retarded by the surfactant than an equivalent cement composition without pozzolanic material.

8. WO/2016/148677 CONFIGURING MANAGED DEVICESWO22.09.2016
H04L 12/24
PCT/US2015/020480HEWLETT PACKARD ENTERPRISE DEVELOPMENT LPDANDABANY, Sankarlingam
Example implementations relate to configuring managed devices. For example, a device includes a controller to receive a network configuration from a management device, and temporarily apply the network configuration and attempt a network connection with the management device using the network configuration. The controller is to configure the device with the network configuration if the network connection is established using the network configuration, and revert to a previous network configuration if the network connection is not established using the network configuration.

9. WO/2016/148705 OPTIMIZATION OF DOWNHOLE LOGGING TOOL DATA RESOLUTIONWO22.09.2016
E21B 47/26
PCT/US2015/021044HALLIBURTON ENERGY SERVICES, INC.DYKSTRA, Jason D.
Methods and related systems which coordinate the motion of a logging tool string and the operation of individual logging tools along the string to improve the quality of the logging data for producing more accurate models of the downhole environment, for improving the logging operation efficiency, and for providing the capability to avoid violation of logging related constraints.

10. WO/2016/148718 SIDE-FIRE LASER FIBER HAVING A MOLDED REFLECTIVE SURFACEWO22.09.2016
A61B 18/22
PCT/US2015/021415AMS RESEARCH, LLCYU, Honggang
A side-fire laser fiber (102) includes an optical fiber (112) having a distal end (116) and a fiber cap (114). The fiber cap is coupled to the distal end of the optical fiber and includes a molded reflective surface (130) and a sealed cavity (132A or 132B). The molded reflective surface defines a wall of the cavity. Laser energy discharged from the distal end along a central axis (124) of the optical fiber is reflected off the molded reflective surface in a direction that is transverse to the central axis.


Results 1-10 of 981,955 for Criteria: Office(s):all Language:EN Stemming: true
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