SU719259A1 - Method for determining phase transformation temperatures in materials - Google Patents

Description

The aim of the invention is to ensure the accuracy of the measurement of phase temperature

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This is achieved by the fact that in the sample of the opopea, the temperature of the sample’s temperature is removed at ONE side, it is heated, and perpendicular to the Aeraelean type: flow, mono: X: R.O. isothermal extract of the sample in the temperature interval under study at 1-path; cant of monochromatic flux radiation. and the flow and temperature of the sample are recorded at the outlet; la values are determined by comparing | I zl.aChen (and monoX1O2 flows | Mathematical Radiation for any modes (| isotherm; M | Exposure and absolute heat sink)) of the sample temperature. .

One-sided heat removal from the sample is achieved by using the following. chill: ka. At the same time, the phase transformation front is organized in parallel with the flow of 1Monochro1match1Or-izducheni, therefore, the moment when froitite passes through the transmission of the beam is taken into account in a clear fracture. dependence of the flux, and the magnitude of the flux; I-irradiated (/) from 1 time (t).

Since the measurement of the flow of monochromatic y-radiation is non-contact, the speed of HarpeiBa; cooling or sample 1 can vary over wide limits and is limited by these values, for which the effect of a single-side heat sink becomes ineffective.

Accurate data on the temperature of the sample (T), and the flow of mo, no1x; ro: matechekogo 7 radiated (and (/) are obtained in the process of 1I1 eaterm; il1X extracts in the studied temperature interval before | And after the phase interval) or only on one side of the phase transformation. This operation is carried out with the absence of a unilateral heat sink, with the aim of reducing the mean-square error | FROM; the flow rate is monochrome, the rotation rate is quite large; the number of these is fixed.

Inertia-free temperature measurements cause an increase in the ACCURACY AND graduated measurement. On the one hand, devices require the use of measuring operations (for example, optical | Iromet | p), on the other hand, it is possible to judge the volume temperature more accurately on the basis of temperature measurements from 1 point; sample or temperature About bolokah, inside which thermostatovrovN sample.

The thickness of the sample to be examined should be selected according to the conditions required for the absolute height and absolute magnitude of the signal from. radiation path at

insignificant changes and tempo; ratu; ry to the average | Quad | ratios of measurement errors of the wellness of the flow was: maxS | And | immense.

In the event that a sample is expected to melt in the temperature range under study, it is placed in a tig unit of suitable size. The fastening of the sample (in the crucible / or without it) in the rear position can be carried out in different ways: with the aid of pods, glasses, holders, etc. The control of the position of the sample at its possible displacement (and radiation.

The most important way is that the combination of stepped isofermic extracts and a roar. or cooling with a one-sided heat sink is performed in different sequences.

In the case of using them for the same sample, the sequence of operations is determined depending on the property of the test object.

So, for example, if | you need to set the temperature of the sample phase, the sample, the heat.HOHO.ro to heat treatment, then it is advisable to first conduct an operation with a one-sided heat conductor.

If the phase transformation is conjugated with a stronger change in the initial properties of the sample material, it is necessary to firstly measure at isotherms | Actual exposures on one side of the phase transformation temperature ..

All operations with the sodium of the reaction materials are carried out in a vacuum or inert atmosphere.

The method of pr. Ugoden to establish the temperature of phase transformations of the first and BTopoiro genus.

FIG. Figure 1 shows the dependence of the monochromatic flux (/) on time (t), obtained with unilateral heat removal from the Sample, perpendicular to the direction of monochromatic flux radiation; in fig. 2 - dependence of the monochromatic radiation flux (/) on temperature (T), three izote are obtained: micron exposure; on fit. 3 shows a comparison of monochromatic y-radiation fluxes for both modes and temperature alterations in order to establish phase transformation temperatures, with Tn and T Т corresponding to the beginning and root of the phase transformation. Here, the details of the method in the case of a phase O | G1Oconversion of the first kind are discussed.

FIG. 4, 5, 6 clarify the essence of the method as applied to the establishment of a second / kind phase transformation. FIG. 4 and the dependence of the noiroiBa monochrome attic y-ray: ı (/) on the time (t) to one-sided removal of heat from the sample; in fig. 5 - dependence of the monochromatic Y-Emission flux (/) on temperature (T) in the course of isothermal exposures in the t he interval; the temperature; p, not T1: p: higher phase transformations; in fig. 6 shows the comparison of aircraft capacities and the establishment of the phase transformation temperature.

FIG. 1 shows a device for implementing the method.

The device includes a sebic ceramic needle 1 with a sample, a model, atelier 2, an imitation 3 of a monochromatic y-pattern, | I; Let us call asdr 4, detector of 5 y-radiation, boD | OO1Chl.expandable screensaver 6 to create a single monitor of heat removal from the sample, recalculated device 7, digital device 8, recording device 9, helix cover 10.

The method makes it possible to increase the accuracy of the temporal light of phase transitions, both for research purposes and for mass production of Spytaya x. Its use is especially effective for metals and alloys with high melting temperatures.

Claims (2)

1. The method of determining the temperature of phase transformations in M1 materials, for example, the temperature-crystallization of metals and alloys, including: the temperature of about: the sample in the studied temperature range by uniformly increasing or decreasing the power of the heating element, passing a monochromatic radiation flux through the sample and resolving it at the output, which is different from the fact that a change in the temperature of the sample is carried out with a single-sided heat removal from it perpendicular to the direction of the flow of monochromatic 7-radiation; a series of isothermal sample exposures in the sample are carried out at the same time, the y-radiation flux and sample temperature are determined, and the sought values are determined by comparing the monochromatic y-radiation fluxes for the two types of temperature variation patterns of the probe. Sources of information taken into account in the examination: 1. Patent F-ranked No. 2181185, cl. G 01 N 25/00, 1974. 2. Karmalin Yu. A. and others. Factory Laboratory, No. 5, 1973, p. 55. j: chvzh15Y X-y s ---. ; -: Y-l, V A "$ t4w aoito;:,: V.-X 719259 T (Time) fut.i -; . T (nieHn epa my pa) fui.Z G (Wren) rig T temperature) Fig. T {g smperag 1url Rig 5 Gp T (temperature) Pig.6., . - with; YL2Y & Y.-5GGG