System and method for testing mechanical-electrical coupling effect of electrical conducting functional material

A functional material, coupling effect technology, applied in the direction of analyzing materials, measuring resistance/reactance/impedance, measuring devices, etc., can solve problems such as the inability to meet the needs of coupling effect testing, achieve accurate and reliable measurement and analysis, and expand the test range.

Inactive Publication Date: 2015-09-23
PEKING UNIV
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Problems solved by technology

[0004] The test and analysis of electromechanical coupling effects play an important guiding role in the development and application of conductive functional materials. The existing experimental methods for testing mechanical and electrical properties are all aimed at the measurement of a single performance, which cannot meet the testing needs of coupling effects. There is an urgent need for a A test system and test method capable of accurately and reliably measuring and analyzing the mechanical properties, electrical properties and coupling effects of materials under different electric and force fields, so as to realize the measurement and analysis of the electromechanical coupling effects of conductive functional materials

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  • System and method for testing mechanical-electrical coupling effect of electrical conducting functional material

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Embodiment Construction

[0038] Below in conjunction with accompanying drawing, further describe the present invention through embodiment, but do not limit the scope of the present invention in any way.

[0039] The invention provides a test system for the electromechanical coupling effect of conductive functional materials, figure 1 It is a structural diagram of a test system for the electromechanical coupling effect of conductive functional materials provided by the embodiment of the present invention, including conductive functional material samples 1, sample electrodes 2, external wires 4 on electrodes, insulating tape 3, sample clamping devices (including upper end Clamping device 5 and lower end clamping device 6), displacement sensor 7, transmission shaft 8, drive motor 9, force sensor 10, hand-held four-probe probe 11, multi-valued resistor 12, digital source meter B 13, digital source Table A 14 and DC power supply 15;

[0040] The two ends of the conductive functional material sample 1 are ...

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Abstract

The invention discloses a system and a method for testing the mechanical-electrical coupling effect of an electrical conducting functional material . The system comprises an electrical conducting functional material sample, a sample electrode, an insulation tape, an external wire on the electrode, a sample clamping device, a displacement sensor, a transmission shaft, a driving motor, a force sensor, a handheld four-point probe, a digital source meter B, a digital source meter A and a DC power supply, wherein an integral load-displacement curve can be obtained through accurate control of parameters such as voltage strength, conduction time and loading speed; mechanical and electrical properties such as elasticity modulus, tensile strength, elongation at break, yield strength, integral volume resistivity and micro-area volume resistivity distribution of a material under the action of different force fields and electric fields can be obtained through further calculation. Therefore, measurement and analysis of the mechanical-electrical coupling effect of the electrical conducting functional material can be realized accurately and reliably, and the system and the method are suitable for electrical conducting functional materials such as conductive macromolecule, piezoceramics, a polymer-matrix composite, a ceramics-matrix composite, and a metal-matrix composite.

Description

technical field [0001] The invention relates to a testing technology for electromechanical coupling effect, in particular to a testing system and a testing method for electromechanical coupling effect of conductive functional materials. Background technique [0002] With the continuous development of electronic technology and material science, new conductive materials with multiple functions such as power transmission, signal propagation, electromagnetic shielding, wave absorption, catalysis, sensing and energy storage have been developed by leaps and bounds, especially conductive polymers, Piezoelectric ceramics, polymer matrix, ceramic matrix and metal matrix composite materials have been widely used in transistors, sensors, electrodes, electric heaters, supercapacitors, shielding shells, electrocatalysis, solar thin films, energy storage batteries, electronic shielding films, anti- Electrostatic coatings, touch screens and flexible devices are closely related to the devel...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N3/00G01R27/02
Inventor 张杨飞张兰英
Owner PEKING UNIV
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