Abstract: A device for preparing ultra-high purity zinc based on intelligently-controlled zone melting, including a slide platform connected with a screw through a servo control system to control movement of a heating-cooling device. A quartz tube is provided inside an induction heater to protect a melting zone. An infrared thermometer is connected to the heater, and configured to monitor temperature within the melting zone, and control power of the heater. A ring magnetic stirrer with non-contact circumferential rotation cooperates with coil to stir zinc melt. A water-cooling copper jacket is connected to two ends of the heater to cool a zinc bar, and its water inlet and outlet are connected with a water chiller. The infrared thermometer monitors temperature of the zinc bar and controls water flow of the cooling system. A lifting device is connected with a base cabinet to change inclined angle of the zinc bar.

Abstract: A high-thermal conductivity composite material is AlNp/ZA27 composite material, including 2%, 4%, 6%, or 8% by volume of aluminum nitride (AlN) ceramic particles and zinc-aluminium-27 (ZA27) alloy. The ZA27 alloy includes 70.52-71.08% by weight of Zn, 25.58˜27.65% by weight of Al, 1.27˜3.45% by weight of Cu, and 0.50% or less by weight of Mg. In the preparation of the high-thermal conductivity composite material, an as-cast AlNp/ZA27 composite material is subjected to homogenizing annealing and reciprocating extrusion.

Abstract: The present invention discloses an integrated research and development system for high-throughput preparation and statistical mapping characterization of materials, comprising: a high-throughput preparation module, a high-throughput characterization module, an automatic control module and a statistical mapping data processing module; the high-throughput preparation module is used for preparing a multi-component combinatorial-sample; the high-throughput characterization module comprises a plurality of different high-throughput characterization devices; the automatic control module comprises a special sample box, a sample moving platform, an intelligent mechanical arm and a synchronous control system; and the statistical mapping data processing module is used for constructing a statistical mapping constitutive model corresponding to position mapping according to the composition, microstructure and performance data of the combinatorial-sample.

Abstract: A sleeve mold for a method of high-throughput hot isostatic pressing micro-synthesis for combinatorial materials includes a honeycomb-array-sleeve and an upper cover, wherein a plurality of single cells are tightly arranged inside the honeycomb-array-sleeve, an exhaust tube is arranged on the upper cover, after the single cells are filled with powder materials, the upper cover is sealed welding on the honeycomb-array-sleeve, and the honeycomb-array-sleeve and the upper cover are both integrally produced by additive manufacturing. According to the method and the sleeve mold, the powder metallurgy hot isostatic pressing process is utilized to prepare small-size bulk combinatorial materials with multiple discrete components rapidly at one time.

Abstract: The invention relates to a method of high-throughput hot isostatic pressing micro-synthesis for the combinatorial materials and a sleeve mould thereof. The sleeve mould (2) comprises a honeycomb-array-sleeve (3) and an upper cover (4), wherein a plurality of single cells (6) are tightly arranged inside the honeycomb-array-sleeve (3), an exhaust tube (5) is arranged on the upper cover (4), after the single cells (6) are filled with powder materials, the upper cover (4) is sealed welding on the honeycomb-array-sleeve (3), and the honeycomb-array-sleeve (3) and the upper cover (4) are both integrally produced by additive manufacturing. According to the method and the sleeve mould, the powder metallurgy hot isostatic pressing process is utilized to prepare small-size bulk combinatorial materials with multiple discrete components rapidly at one time. This method has the characteristics of high sintering speed, high compaction density, good thermal diffusivity, short production cycle and low material consumption.

Abstract: The present invention belongs to the technical field of high throughput preparation and hot working of materials, and in particular to a high throughput micro-synthesis method of multi-component materials based on the temperature gradient field controlled by microwave energy. This invention, characterized by flexible material selection, quick temperature rising and high-efficient heating, uses microwave heating both to achieve quick preparation of small block combinatorial materials under the same temperature field in one time and to realize micro-synthesis under the different temperature gradient fields in one time including high-throughput sintering-melting and heat treatment of materials. This invention successfully overcomes drawbacks of current material preparation, such as unitary combination of components, low-efficient external heating, unique control temperature, huge material consumption and high cost during material preparation and heat treatment.

Abstract: The present invention belongs to the technical field of high throughput preparation and hot working of materials, and in particular to a high throughput micro-synthesis method of multi-component materials based on the temperature gradient field controlled by microwave energy. This invention, characterized by flexible material selection, quick temperature rising and high-efficient heating, uses microwave heating both to achieve quick preparation of small block combinatorial materials under the same temperature field in one time and to realize micro-synthesis under the different temperature gradient fields in one time including high-throughput sintering-melting and heat treatment of materials. This invention successfully overcomes drawbacks of current material preparation, such as unitary combination of components, low-efficient external heating, unique control temperature, huge material consumption and high cost during material preparation and heat treatment.

Abstract: A thin-film transistor displayer integrated with an NFC antenna, is a TP on/in cell thin-film transistor displayer. The NFC antenna is arranged on a display screen of the thin-film transistor displayer, where the NFC interface is built in an output circuit of the display screen and connected to a control mainboard of the display screen. The display screen and NFC antenna features are combined into one, and the NFC antenna is arranged directly on the thin-film transistor displayer, avoiding problems of signal quality deterioration and reception failure due to wearing of the NFC antenna interface and inaccurate alignment. In addition, a solution is provided for facilitating reception of an NFC signal from a display panel and touch panel of the displayer, or for the case that the NFC signal must be received from the display panel and touch panel of the displayer.

Abstract: An organic electroluminescent display device having integrated an NFC antenna (9). The NFC antenna is arranged on a display screen of the organic electroluminescent display device, where the NFC interface is equipped with an output line of the display screen and is connected to a control mainboard of the display screen. This combines the display screen and the NFC antenna (9) into one, and has the NFC antenna (9) provided directly on the organic electroluminescent display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna (9) interface and inaccurate alignment. In addition, provided is a solution to facilitate reception of an NFC signal from a display panel of the display device or for when the NFC signal must be received from the display panel of the display device.

Abstract: A thin-film transistor display device having integrated an NFC antenna (3). The NFC antenna (3) is arranged on a display screen (S) of the thin-film transistor display device, where the NFC interface is equipped with an output circuit of the display screen (S) and is connected to a control mainboard of the display screen (S). The thin-film transistor display device combines the display screen (S) and NFC antenna (3) features, and has the NFC antenna (3) provided directly on the thin-film transistor display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna interface and inaccurate alignment, while facilitating reception and transmission of signals by the antenna, thus ensuring the smoothness of communication.

Abstract: An organic light-emitting diode displayer integrated with a near field communication antenna is provided. The organic light-emitting diode displayer is a TP on-cell or in-cell organic light-emitting diode displayer, the near field communication antenna is disposed on a display screen of the organic light-emitting diode displayer, and a near field communication interface is built on an output circuit of the display screen and is connected to a control mainboard of the display screen.

Abstract: The present invention relates to near field communication technology. Specifically, disclosed is an electrophoretic display device having integrated an NFC antenna. The NFC antenna is arranged on a display screen of the electrophoretic display device, where the NFC interface is equipped with an output circuit of the display screen and is connected to a control mainboard of the display screen. The present invention combines the display screen and NFC antenna features into one, and has the NFC antenna provided directly on the electrophoretic display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna interface and inaccurate alignment. In addition, a solution is provided for facilitating reception of an NFC signal from a display panel of the display device or for when the NFC signal must be received from the display panel of the display device.

Abstract: An emulator on a host computer includes a static analysis module that analyzes executable code of a suspicious sample to determine whether the code identifies that a particular packing program (packer) has packed the sample. Once identified, a custom configuration file is generated that identifies particular API hooks or instructions that should be disabled (or enabled) so that the sample file cannot use these hooks or instructions to detect that it is executing within an emulator. The emulator (such as a virtual machine or sandbox) is configured using the configuration file. The suspicious sample is then executed and its behaviors are collected. The sample is prevented from detecting that it is operating within an emulator and thus prevented from terminating prematurely. Malicious behaviors are scored and a total score indicates whether or not the suspicious sample is malicious or not. Static analysis identifies signatures, instructions or strings.

Abstract: An application document known to include malware (such as a document exploit) is opened and executed by its corresponding software application. Behaviors of this document (such as registry, file system, network and process) are monitored and recorded using internal software drivers and hook modules. A behavior report is generated and a baseline pattern is created including a number of regular expressions. A suspicious document of the same type as the monitored document is opened and executed by the same corresponding software application. Behaviors are monitored in the same way and a behavior report is generated. This behavior report is compared to the baseline pattern and a determination is made as to whether a document exploit is present. Known benign documents may also be opened, monitored and their behavior recorded, resulting in creation of a known benign pattern for the corresponding software application.

Abstract: A thin-film transistor display device having integrated an NFC antenna (3). The NFC antenna (3) is arranged on a display screen (S) of the thin-film transistor display device, where the NFC interface is equipped with an output circuit of the display screen (S) and is connected to a control mainboard of the display screen (S). The thin-film transistor display device combines the display screen (S) and NFC antenna (3) features, and has the NFC antenna (3) provided directly on the thin-film transistor display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna interface and inaccurate alignment, while facilitating reception and transmission of signals by the antenna, thus ensuring the smoothness of communication.

Abstract: The present invention relates to near field communication technology. Specifically, disclosed is an electrophoretic display device having integrated an NFC antenna. The NFC antenna is arranged on a display screen of the electrophoretic display device, where the NFC interface is equipped with an output circuit of the display screen and is connected to a control mainboard of the display screen. The present invention combines the display screen and NFC antenna features into one, and has the NFC antenna provided directly on the electrophoretic display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna interface and inaccurate alignment. In addition, a solution is provided for facilitating reception of an NFC signal from a display panel of the display device or for when the NFC signal must be received from the display panel of the display device.

Abstract: A thin-film transistor displayer integrated with an NFC antenna, is a TP on/in cell thin-film transistor displayer. The NFC antenna is arranged on a display screen of the thin-film transistor displayer, where the NFC interface is built in an output circuit of the display screen and connected to a control mainboard of the display screen. The display screen and NFC antenna features are combined into one, and the NFC antenna is arranged directly on the thin-film transistor displayer, avoiding problems of signal quality deterioration and reception failure due to wearing of the NFC antenna interface and inaccurate alignment. In addition, a solution is provided for facilitating reception of an NFC signal from a display panel and touch panel of the displayer, or for the case that the NFC signal must be received from the display panel and touch panel of the displayer.

Abstract: A touch screen (100) having integrated an NFC antenna (103). The NFC antenna (103) is arranged on the touch screen (100) and is connected to a mainboard having a control chip. The NFC antenna (103) is provided directly on the touch screen (100), thus combing a touch feature and the NFC antenna feature into one. This prevents the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna and inaccurate alignment, while at the same time, facilitates the antenna in receiving and transmitting signals, thus ensuring smooth communication.

Abstract: An organic light-emitting diode displayer integrated with a near field communication antenna is provided. The organic light-emitting diode displayer is a TP on-cell or in-cell organic light-emitting diode displayer, the near field communication antenna is disposed on a display screen of the organic light-emitting diode displayer, and a near field communication interface is built on an output circuit of the display screen and is connected to a control mainboard of the display screen.

Abstract: An organic electroluminescent display device having integrated an NFC antenna (9). The NFC antenna is arranged on a display screen of the organic electroluminescent display device, where the NFC interface is equipped with an output line of the display screen and is connected to a control mainboard of the display screen. This combines the display screen and the NFC antenna (9) into one, and has the NFC antenna (9) provided directly on the organic electroluminescent display device, thus preventing the problem of signal quality deterioration and reception failure due to wearing of the NFC antenna (9) interface and inaccurate alignment. In addition, provided is a solution to facilitate reception of an NFC signal from a display panel of the display device or for when the NFC signal must be received from the display panel of the display device.