Evaluation method for uniformity of continuous-fiber-reinforced composite resin

A technology for reinforcing composite materials and continuous fibers, which is applied in the field of composite material performance testing, can solve the problems of difficulty in identifying infrared spectroscopy and cannot analyze micro-mechanical inequities, and achieves the effect of wide application.

Active Publication Date: 2017-06-20
AVIC BEIJING AERONAUTICAL MFG TECH RES INST +1
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

In the prior art, the direct mechanical information of the resin cannot be obtained by applying methods such as infrared spectroscopy, and it is actually difficult to identify the difference in the infrared spectrum when the curing degree of the resin is high; other material analysis methods in the prior art, such as TEM, SEM, energy spectrum, Analytical methods such as spectroscopy have corresponding limitations. SEM has advantages in analyzing the inhomogeneity of the microscopic multi-phase structure, but it cannot analyze the micromechanical inhomogeneity caused by different curing degrees.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0020] A method for evaluating the resin uniformity of a continuous fiber reinforced composite material, comprising the following steps. The first step is to take a continuous fiber reinforced composite material, and cut a sample at a position to be tested. The axial direction of most fibers on the cross-section is distributed perpendicular to the cross-section, so that the upper and lower cross-sections of the sample are parallel to each other, and one side of the sample is polished as the test surface; the second step is to take a sample randomly, and select The test area, the side length of the selected test area is 30~80µm, the number of test areas on a single sample is not less than 8, and each test area is uniformly selected on the polished section; the third step is to select the test area. , to test the nanomechanical hardness of each area in turn. When testing a test area, first scan the three-dimensional shape of the test area with a nano-indentation probe, and select...

Embodiment 2

[0022] A method for evaluating resin uniformity of continuous fiber-reinforced composite materials, comprising the following steps. The first step is to take continuous fiber-reinforced composite materials, and cut 1-3 samples at the position required for testing, and the height of each sample should not exceed 10mm, length and width no more than 50mm, when cutting the sample, the requirement for selecting the cut surface is that the axial direction of most fibers on the cross-section is perpendicular to the cross-section distribution, so as to reduce the uncontrollable influence caused by the fiber-resin interface, so that the upper and lower sections of the sample The cross-sections are parallel to each other, and one of them is polished as the test surface; the second step is to take a piece of sample randomly, and select the test area on the polished cross-section. The overall, partial and microscopic uniformity test of the composite material resin can be flexibly changed. ...

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Abstract

The invention provides an evaluation method for the uniformity of continuous-fiber-reinforced composite resin. According to a technical scheme in the invention, the method comprises the following main steps: step 1, acquiring a continuous-fiber-reinforced composite, cutting out samples at to-be-detected positions, wherein when the samples are to be cut out, it is required that the axial direction of most fibers on each selected cross section is perpendicular to the cross section; step 2, randomly selecting a sample, selecting test areas on a polished cross section; and step 3, after selection of the test areas, successively testing the nanometer mechanical hardness of each test area, wherein when one test area is to be tested, a nanometer indentation probe is used for scanning the three-dimensional morphology of the test area, then test points are selected from the test area, and the nanometer hardness of each test point is tested successively. Thus, the method can test the performance of the composite resin in a nano-scale microscopic level for evaluation of microscopic uniformity of the resin; and the method has a wide application scope and is applicable to acquisition of microscopic mechanical data of samples located at different areas and positions, so multiple information of integral, local and microscopic uniformity of composite samples can be obtained.

Description

technical field [0001] The invention relates to the technical field of performance testing of composite materials, in particular to a method for evaluating resin uniformity of continuous fiber reinforced composite materials. Background technique [0002] Continuous fiber-reinforced composite materials have excellent specific strength and specific stiffness, so they are used as structural materials in aircraft, ships, automobiles and other fields more and more widely. Thermosetting resins represented by epoxy resin are widely used in fiber-reinforced composite materials. In use, its strength, toughness, defect characteristics, interface and other factors determine the overall performance of the composite material. [0003] The uniformity of the composite resin affects the performance of the composite material. This uniformity includes the uniformity of the whole, local and even microscopic scales. For example, the "off-site" toughening technology used in the resin transfer mo...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01N33/44
CPCG01N33/442
Inventor 郭妙才洪旭辉李亚锋
Owner AVIC BEIJING AERONAUTICAL MFG TECH RES INST
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