Method and device for testing micro-tensile mechanical properties of metal fiber

A metal fiber, micro-stretching technology, used in measuring devices, optical devices, tension measurement, etc., can solve the problems of high price, complex structure, contact interference, etc., and achieve compact device structure, stable measurement system, and stable performance. Effect

Active Publication Date: 2011-01-19
HUAZHONG UNIV OF SCI & TECH
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Problems solved by technology

Because it is necessary to study the scale effect and related theories of metal (non-metal) fiber materials at the micron and submicron levels, it is necessary to accurately draw the stress-strain curve of the material, and the traditional strength and extensometer generally uses mechanical contact force measurement Sensor, this method of force measurement is not only disturbed by contact, but also the measured displacement (displacement of one-sided chuck) has not subtracted the deformation of the elastic element, so the traditional tensile tester cannot accurately map the stretch of the fiber material Force-deformation curves and stress-strain curves
In addition, domestic similar products appear to h

Method used

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  • Method and device for testing micro-tensile mechanical properties of metal fiber
  • Method and device for testing micro-tensile mechanical properties of metal fiber
  • Method and device for testing micro-tensile mechanical properties of metal fiber

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Embodiment Construction

[0016] Attached below Figure 1~5 Detailed description of the present invention: The measuring device of the present invention generally includes six parts in terms of functions: a force sensor unit, a drive unit, a displacement adjustment mechanism, a specimen fixture assembly, a machine base unit, and a data acquisition and testing system. Its structure and working principle are as follows:

[0017] a. The force sensor unit consists of a high-precision photoelectric displacement sensor and an elastic element 11. The photoelectric displacement sensor includes a sensing head 13 (with an accuracy of 0.1 μm and a measuring range of ±5mm) and a photoelectric displacement controller 8. The photoelectric displacement sensor adopts the triangulation measurement principle (as attached image 3 As shown), the deformation of the laser irradiation point of the elastic element can be measured non-contact, and the deformation is converted into a force value signal through calibration, so...

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Abstract

The invention discloses a method and a device for testing micro-tensile mechanical properties of a metal fiber. Being different from the existing tensile tester, the invention is characterized in that a force transducer is composed of a non-contact photoelectric displacement transducer and an elastic element, the force transducer can be used for measuring both the tensile force of a fiber and the displacement of the gripped end of the fiber and helping automatically and accurately obtain the tensile force-deformation curve of a test sample in real time so as to obtain the stress-strain curve of the test sample, and parameter values characterizing the micro-tensile mechanical properties of the metal fiber can be obtained by analyzing the stress-strain curve. By using the optical non-contact measurement method, the invention avoids the interference generated by the traditional contact measurement, and enables the measuring system to be more stable. Besides, the whole device has the advantages of ingenious structure, simple and convenient operation and stable performance, thereby being applicable to testing the micro-tensile mechanical properties of various single fibers (especially metal fibers).

Description

technical field [0001] The invention belongs to the field of precise measurement of mesoscopic mechanical properties of materials, in particular to a method and device for accurately measuring the micro-tensile mechanical properties of metal fibers. Background technique [0002] As an interdisciplinary subject of solid mechanics and material science, mesomechanics is of great significance to the study of material mechanical behavior in the laws of material science. In the past ten years, the new material micron-scale ultra-fine metal fiber has been widely used in the fields of special textiles, environmental protection filtration, automobiles, papermaking and metallurgy due to its special properties such as light weight, electrical conductivity, thermal conductivity, corrosion resistance, long life and high strength. Widely used, such as the multi-lattice metal fiber felt made of metal fiber as the basic unit is not only light in weight, but also has the characteristics of s...

Claims

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Application Information

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IPC IPC(8): G01N3/08G01B11/16G01L5/04
Inventor 何玉明刘大彪丁华明胡鹏
Owner HUAZHONG UNIV OF SCI & TECH
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