Junliang
Junliang Liu, Shanghai CN
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20150013844 | Non-Oriented Silicon Steel and Manufacturing Process Thereof - The present invention provides a non-oriented silicon steel with excellent magnetic properties and a manufacturing process therefor. During the manufacturing process of the present invention, the temperature T of the molten steel of steel tapped from a converter during steelmaking and the carbon content [C] and the free oxygen content [O] comply with the following formula: 7.27×10 | 01-15-2015 |
Junliang Song, Beijing CN
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20140222761 | Terminal Backup and Recovery Method - The invention discloses a terminal backup and recovery method. When in backup, a user interface is provided at a terminal side first, so as to provide, according to a preset display policy, different backup categories for a user to select, wherein the different backup categories comprise different backup objects. Then, according to a backup category and object selected by the user, at the terminal side, a terminal file corresponding to the backup object is backed up at a cloud server according to a preset backup policy. When in recovery, according to a recovery category and object selected by the user, a file already backed up by the terminal/user and corresponding to the backup object is determined at the cloud server, and according to a preset recovery policy, corresponding recovery is executed at the terminal side by using the backed-up file. The invention provides classified backup and recovery, and increases the speed of backup and recovery. | 08-07-2014 |
Junliang Sun, Stockholm SE
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20160060129 | EMM-26, A NOVEL SYNTHETIC CRYSTALLINE MATERIAL, ITS PREPARATION, AND ITS USE - EMM-26 is a novel synthetic crystalline material having a single crystalline phase with a unique T-atom connectivity and X-ray diffraction pattern which identify it as a novel material. EMM-26 has a two-dimensional pore system defined by 10-membered rings of tetrahedrally coordinated atoms having pore dimensions of ˜6.3 Åט3.2 Å. EMM-26 may be prepared with a organic structure directing agent, such as 1,6-bis(N-methylpyrrolidinium) hexane dications and/or 1,6-bis(N-methylpiperidinium) hexane dications. EMM-26 may be used in organic compound conversion and/or sorptive processes. | 03-03-2016 |
Junliang Wu, Shanghai CN
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20160083185 | Environment-friendly Paper Bag Recycling Storage Plate - The invention relates to an environment-friendly paper bag recycling storage plate characterized by comprising a guide plate structure and a paper bag support plate structure which are folded by a hard foldable material. The guide plate structure is hinged with an end of the paper bag support plate structure, when in storage, the guide plate structure and the paper bag support plate structure are closely abutted and folded into a flat plate, when in use, the paper bag support plate structure and the guide plate structure are folded into a slot shape, the paper bag support plate structure is inserted into a paper bag, and a garbage housing space is formed by the slot-shaped paper bag support plate structure and the paper bag, after the guide plate structure is turned in place towards the direction away from the paper bag support plate structure, garbage enters the garbage housing space along the guide plate structure. When the environment-friendly paper bag recycling storage plate is horizontally placed to serve as a dustpan, scraps can be swept into the paper bag by a broom. The environment-friendly paper bag recycling storage plate is reusable, compact in whole structure, convenient to use, lighter than a common garbage bin, convenient to carry, foldable when not in use, small in occupied space, low in manufacturing cost, and easy to use by common people. | 03-24-2016 |
Junliang Zhang, Dayton, NJ US
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20130130133 | Nanofiber Supported Catalysts As Membrane Additives For Improved Fuel Cell Durability - A fuel cell membrane and a method of making the same. The membrane includes at least one non-reinforced layer and at least one reinforced layer. Both layers include a proton-conductive ionomer, while the reinforced layer additionally includes nanofiber-supported catalyst that improve mechanical and chemical durability of the membrane. The nanofiber-supported catalyst is made up of structural fibers onto which an electrocatalyst is coated, deposited or otherwise formed. The structural nanofibers give increased strength and stiffness to the layers that include them, while the electrocatalyst helps to resist electrochemical degradation to the membranes that include them. Such a membrane may form the basis of a fuel cell's membrane electrode assembly. | 05-23-2013 |
Junliang Zhang US
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20120158501 | Targeting Social Advertising to Friends of Users Who Have Interacted with an Object Associated with the Advertising - A viewing user is provided with social advertisements when accessing content associated with a social networking system. A social advertisement can include a candidate advertisement and an associated social story. Candidate advertisements are advertisements provided by one or more advertisers, where the advertisements each specify a relationship between their advertising content and one or more social networking objects. To identify social stories associated with the candidate advertisements, the social networking system identifies other users associated with the viewing user who has interacted with social networking objects that are related to candidate advertisements. Additionally, the social networking system identifies the one or more interactions between the other users and the one or more objects as a social story. The social networking system selects a candidate advertisement and combines it with a social story to create a social advertisement and sends the social advertisement for display to the viewing user. | 06-21-2012 |
Junliang Zhang, Shanghai CN
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20120245017 | Method and Electrochemical Cell for Synthesis and Treatment of Metal Monolayer Electrocatalysts Metal, Carbon, and Oxide Nanoparticles Ion Batch, or in Continuous Fashion - An apparatus and method for synthesis and treatment of electrocatalyst particles in batch or continuous fashion is provided. In one embodiment, the apparatus comprises a sonication bath and a two-compartment chamber submerged in the sonication bath. The upper and lower compartments are separated by a microporous material surface. The upper compartment comprises a cover and a working electrode (WE) connected to a Pt foil contact, with the foil contact connected to the microporous material. The upper chamber further comprises reference counter electrodes. The lower compartment comprises an electrochemical cell containing a solution of metal ions. In one embodiment, the method for synthesis of electrocatalysts comprises introducing a plurality of particles into the apparatus and applying sonication and an electrical potential to the microporous material connected to the WE. After the non-noble metal ions are deposited onto the particles, the non-noble metal ions are displaced by noble-metal ions by galvanic displacement. | 09-27-2012 |
20120245019 | Method and Electrochemical Cell for Synthesis of Electrocatalysts by Growing Metal Monolayers, or Bilayers and Treatment of Metal, Carbon, Oxide and Core-Shell Nanoparticles - An apparatus and method for the synthesis and treatment of electrocatalyst particles in batch or continuous fashion is provided. In one embodiment, the apparatus is comprised of a three-electrode cell which includes a cell body electrode, a reference electrode, and a counter electrode. A slurry containing non-noble metal ions and a plurality of particles is introduced into the apparatus. During operation an electrical potential is applied and the slurry is stirred. When particles in the slurry collide with the electrically conductive region of the cell body electrode the transferred charge facilitates deposition of an adlayer of the desired metal. In this manner film growth can commence on a large number of particles simultaneously. After the non-noble metal ions are deposited onto the particles, they are displaced by noble-metal ions by galvanic displacement. This process is especially suitable for forming catalytically active layers on nanoparticles for use in energy conversion devices. | 09-27-2012 |