Portable thermal-electric coupling induced polymer forming experimental device and experimental method thereof
An experimental device, electrical coupling technology, applied in measurement devices, material analysis by electromagnetic means, instruments, etc., can solve the problems of high operation requirements, inconvenient experiments, lack of safety, etc.
Active Publication Date: 2021-09-14
HANGZHOU DIANZI UNIV
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Problems solved by technology
[0006] The purpose of the present invention is to overcome the existing electric field induced polymer surface forming device in the prior art, which needs to apply high voltage to the induced template and the substrate, resulting in high practical operation requirements and lack of safety, and to explore the effect of different structural templates on polymers When the effect is high, the induction template needs to be replaced frequently, which leads to the problem that the experiment is very inconvenient. A convenient thermal-electrical coupling induction polymer forming experimental device and its experimental method that can improve the safety and convenience of the experiment are provided.
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Embodiment 1
[0029] Such as Figure 1 to Figure 3 The portable thermal-electrical coupling induced polymer molding experiment device shown includes ball screw 1, lead screw 2, micrometer slide 3, connector 4, clamping part 5, base plate 6, lower conductive plate 7, alumina Ceramic tank 8, DC regulated power supply 10, high-temperature heating platform 11, induction template 12 and upper conductive plate 15; the ball screw and the lead screw are combined and connected to form the frame of the experimental device; the clamping part and the connecting part Fixed connection; the alumina ceramic tank is placed above the high-temperature heating platform; the lower conductive plate is placed in the alumina ceramic tank; the substrate is placed above the lower conductive plate as the lower electrode plate; the induction template is fixed on The lower part of the clamp is used as the upper electrode plate; the bottom of the clamp is provided with a groove, and the upper conductive plate is located...
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The invention belongs to the technical field of micro-nano thermal-electric coupling induction structure forming, and particularly relates to a portable thermal-electric coupling induction polymer forming experimental device and an experimental method thereof. The device comprises a ball screw, a lead screw, a micrometer sliding table, a connecting piece, a clamping piece, a substrate, a lower current-conducting plate, an aluminum oxide ceramic groove, a direct-current stabilized power supply, a high-temperature heating platform, an induction template and an upper current-conducting plate. The ball screw is connected with the screw assembly; the clamping piece is fixedly connected with the connecting piece; the aluminum oxide ceramic tank is arranged above the high-temperature heating platform; the lower current-conducting plate is arranged in the aluminum oxide ceramic groove; the substrate is arranged above the lower conductive plate; the induction template is fixed below the clamping piece; and a groove is formed in the bottom of the clamping piece, and the upper conductive plate is located in the groove in the bottom of the clamping piece. The device has the characteristic that the experiment safety and convenience can be improved.
Description
technical field [0001] The invention belongs to the technical field of micro-nano thermal-electrical coupling induction structure forming, and in particular relates to a portable thermal-electrical coupling induction polymer forming experimental device and an experimental method thereof. Background technique [0002] The current electric field-induced polymer surface molding process often affects the polymer surface properties depending on the surface microstructure. As a method of controlling friction and wear, surface texture can effectively improve the tribological properties of the surface of the friction pair, increase the load-carrying capacity, and prolong the service life. According to different needs, using soft materials to process micro-textured surfaces with similar special functions will have a certain positive effect on the development of society and the progress of science. The research on electric field-induced surface forming technology mainly focuses on th...
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IPC IPC(8): G01N27/626
CPCG01N27/626Y02P10/25
Inventor 张俐楠陆凯刘红英吴立群王洪成
Owner HANGZHOU DIANZI UNIV