KR20020031131A - Control method of hot torsion deformation tester - Google Patents

Abstract

PURPOSE: A method for controlling operation of high temperature torsion tester is provided to obtain a rapid and correct test result by effectively controlling the torsion tester, while allowing users to check the accuracy of test in a real time basis. CONSTITUTION: A method comprises a first step of executing tester control and data processing software and inputting general information regarding test; a second step of permitting a user to input the size of sample, converting the amount and speed of deformation to be input by the user into a rotational amount and speed, and using the rotation amount and speed in controlling a servo motor, or using the data obtain from a torque sensor in conversion into stress data; a third step of permitting the user to make selection between a continuous deformation test and a short deformation test, and permitting a test related data input window to be displayed first even when the user selects any of two tests; a fourth step of performing a continuous deformation test by receiving inputs regarding amount and speed of deformation, and temperature, and giving commands to the servo motor by converting the input amount and speed of deformation and temperature into a rotation amount and speed, wherein the temperature input allows heating, maintenance and cooling mode to be repeatedly input in accordance with the test schedule; a fifth step of performing a short deformation test by setting a maintenance time between each test; and a sixth step of outputting data file and graph on stress/deformation amount or torque/time.

Description

CONTROL METHOD OF HOT TORSION DEFORMATION TESTER}

The present invention relates to a method for controlling a high temperature torsion tester, and more particularly, to efficiently control the high temperature torsion tester to obtain a faster and more accurate test result, and to output a graph of the stress-strain or torque-time and a data file. It relates to a control method of a high temperature torsion tester through which the user can check the accuracy of the test in real time.

In general, the high temperature torsion testing machine rotates one end of the target specimen 20 with the torque sensor 30 and rotates the other to a constant torque value using the servo motor 10 as shown in FIG. 1. In the apparatus, the torque value obtained at this time becomes the main object of data processing. Therefore, the main control target of the tester is the rotational speed and the rotation amount of the servo motor 10, and the temperature is also the control target since it is tested at high temperature, so that the specific control method can effectively control the control target to obtain more accurate test results. This is an urgent need.

In addition, when the test time is completed in a very short time, it is not necessary to check the test data in real time, but in general, since the user should be able to check the accuracy of the test, the servo motor has a rotation speed, rotation amount, torque value, and temperature. There is also a need to see changes in real time.

Accordingly, the present invention recognizes the necessity of a new control method according to the conventional technology and devises an effective solution to the problem. The present invention can efficiently control a high temperature torsion tester to obtain faster and more accurate test results. It is an object of the present invention to provide a control method of a high temperature torsional tester that enables the user to check the accuracy of the test in real time through a graph of the stress-strain or torque-time and data files.

1 is a block diagram of a high temperature torsion tester for implementing the present invention.

2 is a flow chart of a control method of a high temperature torsion testing machine according to the present invention.

3 and 4 are graphs for explaining the input and operation of the continuous deformation test according to the present invention.

5 is a graph for explaining the input process of the intermittent deformation test according to the present invention.

6 is a graph of torque value-time output on a screen in accordance with the present invention.

7 is a graph of stress-strain output on a screen in accordance with the present invention.

<Description of the symbols for the main parts of the drawings>

10: Servo Motor

20: Psalms

30: torque sensor

The control method of the high temperature torsion tester according to the present invention for achieving the above object, the initial execution step of inputting general information about the start of the test and the test by executing the software for the control and data processing of the high temperature torsion tester; Allow the user to input the size (diameter and length) of the specimen so that the amount and amount of deformation input by the user in the input window can be converted into rotation amount and rotation speed to control the servo motor or the data obtained from the torque sensor Specimen size selection step to use to convert to; A deformation test selection step of allowing a user to select a continuous deformation test and an intermittent deformation test, and to display a test-related data input window first even when selecting either continuous deformation or intermittent deformation; Through the input window, the amount of deformation, the speed of deformation, and the temperature are input, and the amount of deformation and the speed of deformation are inputted to the servo motor by converting the size of the previously input specimen into the amount of rotation and the speed of the given calculation, while the temperature is tested. A continuous deformation test selection step of allowing heating, maintenance, and cooling to be repeatedly input according to a schedule, and heating, maintenance, and cooling being input with time to give a temperature gradient over time; An intermittent deformation test selection step of setting a holding time between each deformation test as a form in which the input space of the continuous deformation test is repeated several times; After the high temperature torsion test, the result values are displayed on the screen, but the output data are the torque value, strain value, and temperature value of the test specimen sent from the torque sensor, and the torque value is calculated in advance by calculating the size of the test specimen input before the test. The test results are outputted by converting the stress value and the strain value from the strain rate value input before the test and the elapsed time during deformation, and outputting a graph and a data file of stress-strain or torque-time, respectively. It features.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

2 is a flowchart of a control method of a high temperature torsion tester according to the present invention.

As shown, the present invention consists of an initial execution step, a specimen size selection step, a deformation test selection step, a continuous deformation test selection step, an intermittent deformation test selection step, and a test result output step.

First, in the initial execution step, when the software for the control and data processing of the high temperature torsion tester is executed, general information about the start of the test and the test is input.

Thereafter, in the specimen size selection step, the user inputs the size (diameter and length) of the specimen, and converts the deformation amount and the deformation speed into the rotation amount and the rotation speed in the input window to control the servo motor. It is also used to convert data obtained from the torque sensor into stress data.

The selection step of the strain test allows the user to choose between the continuous strain test and the intermittent strain test. Regardless of whether continuous or intermittent deformation is selected, the test-related data input window should appear first.

In the case of the continuous deformation test selection step, the deformation amount, the deformation speed, and the temperature are input in the input window, and the input deformation amount and the deformation speed are converted into the rotation amount and the rotation speed by the given calculation formula to the servo motor. Give orders

The temperature should be able to be repeatedly inputted by heating, maintenance, and cooling according to the test schedule, and the heating, maintenance, and cooling should be inputted with time to give a temperature gradient over time. This temperature schedule requires that each step of heating, holding, and cooling can be entered tens of times. It is also possible to set the point in time at which the servo motor is to be operated during or after any step. In addition, it should be possible to adjust the number of data per unit time according to the rotation speed (deformation speed) can store 100-10000 data per second.

3 and 4 show examples of the continuous strain test input and test method.

In step 6 and step 7 shown in Fig. 4, the temperature should be changed after the servo motor operates at 1000 ° C. for 5 minutes, and the time required for the deformation should be able to perform two or two or more deformation tests. Therefore, it is convenient for the input window to appear differently depending on the number of tests.

In addition, in the input stage of the intermittent strain test, the input space of the continuous strain test is repeated several times, and the holding time must be set between the strain tests. An example of the input method of the intermittent deformation test is shown in FIG. 5.

After the test schedule has been created and run, be sure to display a warning message and ask if you want to run it again.

Finally, in the output stage of the test results, the high temperature torsion test and the results should be displayed on the screen, where the output data is the torque value sent from the torque sensor, the strain value, and the temperature value of the specimen.

At this time, the torque value is converted into the stress value by calculating the size of the input specimen before the test in the given formula. The strain value is also calculated and output from the strain rate value entered before the test and the elapsed time during strain. Therefore, output graphs and data files of stress-strain or torque-time.

The generation of the graph may display the torque value-time data (see FIG. 6) in the form before the data conversion and calculation in real time or on the screen after completion of the test.

At this time, if the test is finished in a short time due to the high deformation speed, it is difficult for the user to check the data converted in real time.

In addition, this torque-time data should be able to be converted and calculated into stress-strain data by user's command selection. Data files can be easily read in Excel and Origin (Micro Soft).

The generated graph should show the torque and time graph in real time from the test as shown in the figure above, and it is generated as a stress-strain graph by conversion equation after the test is completed. In addition, the graph is filtered at this time (see FIG. 7).

The temperature value of the specimen is continuously changed when the heating device is operated, so that it can be checked in real time during the test, and the user can compare the input temperature value with the actual specimen temperature value. Data on temperature changes are also generated as graphs and data after testing.

The present invention is not limited to the above-described embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Such changes are intended to fall within the scope of the claims set forth herein.

As described above, according to the control method of the high temperature torsion tester according to the present invention, it is possible to efficiently control the high temperature torsion tester to obtain faster and more accurate test results, and to output graphs and data of the stress-strain or torque-time. The file has various effects that allow the user to check the accuracy of the test in real time.

Claims (8)

An initial execution step of executing the control and data processing software of the high temperature torsion tester and inputting general information about the start of the test and the test; Allow the user to input the size (diameter and length) of the specimen so that the amount and amount of deformation input by the user in the input window can be converted into rotation amount and rotation speed to control the servo motor or the data obtained from the torque sensor Specimen size selection step to use to convert to; A deformation test selection step of allowing a user to select a continuous deformation test and an intermittent deformation test, and to display a test-related data input window first even when selecting either continuous deformation or intermittent deformation; The input of the deformation amount, strain rate, and temperature is input through the input window, and the input strain amount and strain rate are converted into the rotation amount and rotation speed by the given calculation formula and give command to the servo motor while the temperature is tested. A continuous deformation test selection step of allowing heating, maintenance, and cooling to be repeatedly input according to a schedule, and heating, maintenance, and cooling being input with time to give a temperature gradient over time; An intermittent deformation test selection step of setting a holding time between each deformation test as a form in which the input space of the continuous deformation test is repeated several times; After the high temperature torsion test, the result values are displayed on the screen, but the output data are the torque value, strain value, and temperature value of the test specimen sent from the torque sensor, and the torque value is calculated in advance by calculating the size of the test specimen input before the test. A test result output step of outputting a graph and a data file of a stress-strain amount or a torque-time, respectively, by converting the stress value and calculating the strain value from the strain rate value input before the test and the elapsed time during deformation, respectively. Control method of high temperature torsion testing machine, characterized in that. The method according to claim 1, wherein the temperature schedule of the continuous deformation test selection step enables input of dozens of steps of heating, holding, and cooling. The method of claim 1, wherein in the continuous deformation test selection step, a time point at which the servo motor is operated during or after any step is set. The high temperature torsion tester according to claim 1, wherein in the continuous deformation test selection step, the number of data per unit time can be adjusted according to the rotation speed (strain speed), and 100-10000 data can be stored per second. Control method. According to claim 1, wherein during the continuous deformation test selection step In step 6 and step 7, the temperature of the servo motor starts to operate after 5 minutes at 1000 ° C. The time required for deformation is to allow two or more deformation tests to be performed. Control method of a high temperature torsion tester, characterized in that the input window appears differently. The method of claim 1, wherein the generation of the graph during the test result output step is such that the torque value-time data, which is a form before data conversion and calculation, is displayed on the screen between the live-actions or on the screen after completion of the test. A control method of a high temperature torsion tester characterized by the above-mentioned. The method of claim 1, wherein the torque-time data during the test result outputting step is converted and calculated into stress-strain data by a user's command selection. The method of claim 1, wherein the temperature value of the specimen High temperature torsion tester that enables the user to check the temperature value of the specimen that changes continuously when the heating device is operated, so that the user can compare the input temperature value and the actual specimen temperature value during the test. Control method.