Zhiqiang Shi
Zhiqiang Shi, Painted Post, NY US
Patent application number | Description | Published |
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20100043556 | SYSTEMS AND METHODS FOR MEASURING THE SPECIFIC MODULUS OF CELLULAR CERAMIC BODIES | 02-25-2010 |
20100107700 | Methods For Forming Cladding Portions Of Optical Fiber Preform Assemblies - A method of forming a cladding portion of an optical fiber preform assembly includes positioning a glass core cane in a mold cavity and loading the mold cavity with silica glass soot. The silica glass soot is compressed in an axial direction as the vibratory energy is applied to the mold body to form a soot compact around the glass core cane, wherein the soot compact is the cladding portion of an optical fiber preform assembly and the glass core cane is a core portion of the optical fiber preform assembly. | 05-06-2010 |
20100215546 | NOx Adsorptive Films For NOx Sensor Technologies - A mesoporous, transition metal oxide material having an average pore diameter ranging from 2 to 20 nm, a basic surface character defined by an isoelectric point>pH 7, and a specific surface area greater than 50 m | 08-26-2010 |
20100305877 | LASER-BASED ULTRASONIC MEASUREMENTS OF CELLULAR CERAMIC BODIES DURING THERMAL PROCESSING - Laser-based ultrasonic (LBU) systems and methods for measuring at least one material property of a ceramic cellular ceramic body during thermal processing are disclosed. The method includes subjecting the ceramic cellular ceramic body to a temperature cycle within an interior of an oven having first and second windows. For a plurality of temperatures within the temperature cycle, the cellular ceramic body is irradiated with a modulated laser beam through the first window. This modulated irradiation is sequential at one or more first locations and generates acoustic waves in the cellular ceramic body over a plurality of acoustic paths. The method also includes sequentially irradiating the cellular ceramic body through the second window using a detection laser beam. This probe irradiation is sequential at one or more second locations that correspond to the one or more first locations so that the acoustic waves associated with the plurality of optical paths are detected. The method also includes calculating from the detected acoustic waves at least one material property of the ceramic cellular body as a function of temperature. | 12-02-2010 |
20120094084 | CHEMICALLY-STRENGTHENED GLASS LAMINATES - A glass laminate includes at least one chemically-strengthened glass sheet and a polymer interlayer formed over a surface of the sheet. The chemically-strengthened glass sheet has a thickness of less than 2.0 mm, and a near-surface region under a compressive stress. The near surface region extends from a surface of the glass sheet to a depth of layer (in micrometers) of at least 65-0.06(CS), where CS is the compressive stress at the surface of the chemically-strengthened glass sheet and CS>300 MPa. | 04-19-2012 |
20120216567 | METHOD AND APPARATUS FOR APPLYING ULTRASONIC ACOUSTIC ENERGY TO A GLASS MELT - A method of applying ultrasonic acoustic energy to a glass melt by monitoring a glass melt temperature T | 08-30-2012 |
20120216576 | ULTRASONIC TRANSDUCER ASSEMBLY FOR APPLYING ULTRASONIC ACOUSTIC ENERGY TO A GLASS MELT - An ultrasonic transducer assembly is provided comprising an ultrasonic transducer, an ultrasonic booster, an ultrasonic probe, and a booster cooling unit. The ultrasonic booster is connected to the ultrasonic transducer to amplify acoustic energy generated by the ultrasonic transducer and transfer the amplified acoustic energy to the ultrasonic probe. A seated end of the ultrasonic probe is positioned in a probe seat of the ultrasonic booster. The booster cooling unit is positioned to regulate the temperature of the probe seat of the ultrasonic booster such that the assembly supports a temperature dependent press-fit engagement of the seated end of the ultrasonic probe and the probe seat of the ultrasonic booster. The temperature dependent press-fit engagement is such that the seated end of the ultrasonic probe can be reversibly moved in and out of the probe seat at an elevated temperature T | 08-30-2012 |
Zhiqiang Shi, Shandong CN
Patent application number | Description | Published |
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20100120960 | METHOD FOR PRODUCTION OF SILVER-CONTAINING NANO-STRUCTURE, AND SILVER-CONTAINING NANO-STRUCTURE - Disclosed is a method for producing a silver-containing nanostructure which can reduce the time required for a post treatment step and the amount of a waste material and which is achieved by the application of the reduction reaction of silver oxide; and a silver-containing nanostructure having a specific structure, which can be produced by the method. Specifically disclosed is a method for producing a silver-containing nanostructure, including dispersing a polymeric compound in which a hydrophilic segment is bonded to a polyalkyleneimine chain in a medium, adding silver oxide thereto, and carrying out a reduction reaction of the silver oxide, thereby obtaining a silver-containing nanostructure. In the method, a structure having a branched structure can be produced when a specific compound is used as a complexing agent. The silver-containing nanostructure thus produced can be used as a conductive paste or the like. | 05-13-2010 |
Zhiqiang Shi, He Bei CN
Patent application number | Description | Published |
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20090293988 | System for Charging and Purging a Compressed Gas Cylinder - A fixed and/or stationary modular unit consists of a hydraulic fluid tank, a pressurization pump, and a compressed gas transportation system consisting of a cylinder or set of cylinders. Each cylinder has two ends, a charging end and a dispensing end, with actuated valves positioned at each end. A pair of valves are located at each charging end of each cylinder, with one valve connected to an incoming hydraulic fluid line and the other valve connected to a hydraulic fluid return line. A valve is connected at the dispensing end of each cylinder. Adapters at each end of the cylinder have curved J-tubes that extend into the cylinder. The J-tube on the charging end curves downward and the J-tube on the dispensing end curves upward. The cylinder or sets of cylinders are inclined to a desired level for the dispensing process. | 12-03-2009 |
20100059138 | Method of Pressurizing a Gas Cylinder While Dispensing from Another - A fixed and/or stationary modular unit consists of a hydraulic fluid tank and a pressurization pump. A compressed gas transportation system consists of a set of cylinders. Each cylinder has a charging port and a dispensing port. A valve is connected at the dispensing port of each cylinder. Each of the valves at the dispensing ports of the cylinders are connected to one another. After an idle period of dispensing activity, the valves on the dispensing ports of the cylinders are opened and compressed gas is bled from one of the cylinders into at least one of the other cylinders in the set until the at least one of the other cylinders reaches a desired dispensing pressure. Hydraulic fluid is pumped from the tank into the cylinder being bled from to maintain a substantially constant pressure within the cylinder. | 03-11-2010 |
Zhiqiang Shi, Beijing CN
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20090296582 | TOKEN-BASED CONGESTION CONTROL METHOD FOR THE INTERNET - A computer network system with congestion control includes an edge router, a core router, and an inter-domain router in a computer network domain. A token level is inserted into the packet header of a data packet for congestion control in the computer network domain. | 12-03-2009 |
Zhiqiang Shi, Shrewsbury, MA US
Patent application number | Description | Published |
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20150086048 | ACOUSTIC PANELS AND PLANAR STRUCTURES - A glass panel is provided having a glass structure with an exterior surface and an interior surface, the glass structure having at least one glass sheet with a thickness ranging from about 0.5 mm to about 2.0 mm and a backing frame positioned adjacent the glass structure and situated along the perimeter of the interior surface of the glass structure. The glass panel further includes a polymer layer positioned on the interior surface and intermediate the glass structure and backing frame to adhere the glass structure together with the backing frame an array of acoustic exciters positioned on the glass structure, the array of acoustic exciters providing excitation energy to or receiving excitation energy from the glass structure where frequency response of the panel can be a function of the geometry of the glass structure and the position of the acoustic exciters. | 03-26-2015 |