SU1141335A1 - Method of determination of cotton fibre grade - Google Patents

Abstract

A METHOD FOR DETERMINING A COTTON FIBER VARIETY, consisting in that a fiber sample in the form of parallel-stacked and rigidly fixed fibers is irradiated with coherent electromagnetic waves, the radiation intensity is measured, which determines the grade that Aqueous radiation is selected in the range of 0.2-0.5 µm, and the intensity of the luminescent radiation of the sample is measured. Figure 1 (/) C od 00 SP

Description

The invention relates to photovoltaic methods for controlling the properties of textile materials and can be used in laboratories of textile enterprises.

A known method for determining the variety of cotton fiber is that a fiber sample in the form of parallel-laid and rigidly fixed fibers is irradiated with coherent electromagnetic waves, the radiation intensity is measured, according to which grade 1) is determined.

However, the known method has insufficient accuracy due to the fact that the mass of the sample, the orientation of the fibers relative to the radiation source and other parameters affect the measurement results. 20

The aim of the invention is to improve the accuracy of determining the variety ’cotton fiber.

This goal is achieved by the fact that according to the method for determining the grade of cotton fiber, which consists in the fact that a fiber sample in the form of parallel-laid and rigidly fixed fibers is irradiated with radiation of coherent electromagnetic waves, the radiation intensity is measured by which the grade and radiation wavelength are determined choose in the range of 0.2-0.5 microns, and measure the intensity of the luminescent radiation of the sample.

Figure 1 shows the structural diagram of the device; figure 2 - frame with the test sample.

The device contains a power supply unit 1, a coherent electromagnetic radiation source 2, a goniometer 3 with a frame 4, on which a sample 5 is fixed in the form of parallelly laid fibers, a spectrometer b, a photomultiplier tube 7, amplifier I 8, and a recording device 9.

The power supply unit 1 is connected to a source 2 of coherent electromagnetic radiation and provides. his work. Frame 4 with sample 5 are installed in the goniometer Z. Photo 5 an electronic multiplier 7 is installed at the output of the spectrometer 6 and connected through an amplifier 8 to a recording device 9.

The determination of the variety of cotton fiber is as follows.

Sample 5 is prepared in the form of fibers laid in parallel and rigidly fixed on the frame 4. The power supply unit 1 is turned on ^. Source 2 generates coherent electromagnetic radiation in the wavelength range of 0.2-0.5 μm, in particular, the radiation wavelength was 0.44 μm. The frame with sample 5 is placed in the goniometer 3. Under the action of irradiation, sample 5 luminesces. The luminescent radiation enters the spectrometer 6, where a radiation wavelength of -0.55 μm is emitted, which corresponds to the maximum intensity of the luminescent radiation of the cotton fiber sample 5, which then goes to the photomultiplier 7, where it is converted to the corresponding value of the electric signal. After amplification in amplifier 8, the electrical signal is recorded by the recording device 9.

The grade of cotton fiber is determined by comparing the electrical signal recorded by the recording device 9 with the calibration dependence between the magnitude of the electrical signal and the 4Q grade of cotton fiber. Calibration dependence is determined on standard samples of cotton fiber, the grade of which is known.

Using the invention makes it possible to increase the accuracy of determining the ^45th grade of cotton fiber by the photoelectric method.

Figure 2

Claims (1)

A METHOD FOR DETERMINING THE COTTON FIBER VARIETY, consisting in the fact that a fiber sample in the form of parallel-laid and rigidly fixed fibers is irradiated with coherent electromagnetic waves, measure the radiation intensity, which determines the variety, characterized in that, in order to increase the accuracy of determination, the length n radiation is selected in the range of 0.2-0.5 microns, and measure the intensity of the luminescent radiation of the sample. Figure 1 SU 1141335