SU1383086A1 - Apparatus for measuring sample strain - Google Patents

Abstract

The invention relates to a testing technique and can be used in the study of phase transformations in alloys, accompanied by the deformation of the samples. The purpose of the invention is to increase the accuracy of measuring the deformations at high-temperature isothermal phase transformations of the sample material, which is achieved by increasing the speed of the transport mechanism for transferring the sample to the bath. The sample is removed from the furnace using a transport grab, deformed, and transferred to a nest that moves along the guide rails perpendicular to the gripper guides prior to placing the specimen in spring-loaded l-shaped holders whose base surfaces are placed in the bath. The position of the holders is fixed before the measurements are started with a retainer holding the holder connected to the displacement transducer, and after the transition to the measurement mode — a retainer locking the other holder. The device reduces the time it takes for the sample to move from the furnace and the unit to the deformation of the sample to a bath that provides isothermal, sample top. 1 Il oa a (L oe sk so o 00 Od

Description

The invention relates to a testing technique and can be used in the study of phase transformations in alloys, accompanied by the deformation of the samples.

The purpose of the invention is to improve the accuracy of measurement of deformations during high-temperature isothermal phase transformations of the sample material, which is achieved by increasing the speed of the transport mechanism for transferring the sample to the bath.

In the drawing, a diagram of the device for measuring the deformation of the sample is presented.

The device for measuring the deformation of the sample contains a frame 1 with two coaxially longitudinal guides 2 and 3, two spring-loaded holders 4 and 5 of the sample 6 are L-shaped, each of which has a surface 7 or 8 at the end. of the guides 2 or 3 with the possibility of longitudinal movement, two clamps 9 and 10, each of which is mounted on the frame 1 with the ability to interact with the corresponding holder 4 or 5, the displacement sensor 11, made in the form of a mirror and connected to the holder 5, photome Chanter registrar 12, mounted against sensor 11, transverse guides 13, mounted on frame 1 perpendicularly to longitudinal guides 2 and 3, channel 14, mounted on frame 1 parallel to longitudinal guideline m 2 and 3, sample transport 15 installed in the groove 14 is capable of moving therein a nest 16 for gripping 15, mounted with, capable of moving along transverse guides 13, drives 17 and 18 moving the slot 16 and gripping 15 and a bath 19 mounted on the base 1 against the transverse guides 13, Holding Teli 4 and 5 sample has povepxnoct br basing the sample in a bath 19. The chute 14 is placed against the furnace 20 to heat the sample to a predetermined temperature, and the deformation unit 21, vypolnennsh example as a pair of rolls, obzhi- mayuvdah sample as it passes between the rolls with,

The device works works as follows.

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The sample (shown in the drawing) is placed in a furnace using a transport gripper 15, which is connected to the end of the sample, and is held until the specified temperature is reached. Then, the actuator 18 moves the gripper 15, which moves it along with the sample along chute 14 in slot 16 and releases the gripper 15 from the pattern. The drive 17 moves the jack 16 lowers the sample into the bath 19 on the base surface of the sample holders 4 and 5 L-shaped . The sample, when installed in the holders 4 and 5, moves the spring-loaded holder 4 back until it is installed in accordance with the actual sample size. In this case, the holder 5 is kept from being shifted by the latch 10, then the latch H is turned off, and the latch 9 is turned on, and the specimen moving during its holding in the bath 19 through the holder 5 is transmitted to the displacement sensor 11, the mirror of which rotates through the corresponding angle, as a result the illuminator reflected from the mirror moves along the surface of the photographic carrier of the recorder 12. The deformation of the sample during phase transformations occurs in the photo carrier as a function of time.

The use of the proposed device makes it possible to increase the accuracy of determining the thermomechanical characteristics of alloys during hot working with the pressure of these structural materials, which will increase the durability of the parts made from them and reduce the laboriousness of their subsequent machining due to toughening allowances.

Claims (1)

Invention Formula A device for measuring the deformation of a specimen containing a frame with two coaxially longitudinal guides, two spring-loaded specimen holders, each of which has at the end a base surface of the specimen and is installed in one of the guides with the possibility of longitudinal movement, two clamps, each of which is mounted on frame with the ability to interact With a corresponding holder, and a displacement sensor connected to one of the holders, characterized in that, in order to increase the accuracy of strain measurement during high-temperature isothermal phase transformations of the sample material, it is provided with transverse guides mounted on the frame perpendicular to the longitudinal guide, groove installed on the frame parallel to the length , guides, transport gripping the sample mounted in the chute with the possibility of moving, nest for gripping, installed with the possibility of moving along the transverse guides, drives of moving the nest and gripping and the bathtub installed on the frame against the transverse guides, and the holders of the sample are filled with T -shaped shape and placed sample-based surfaces in the cavity of the bath. /// /// /// /// /// // 7 //// 7 / /// /// /// ///