SU1406467A1 - Measuring cell for low-temperature studies of material properties - Google Patents

Abstract

This invention relates to a microwave measurement technique. The aim of the invention is to enable the simultaneous investigation of the mechanical and structural properties of materials in the deformation process. The device contains a cryostat 1, a support tube 2 placed therein, a pull 3 for applying a mechanical load, a passive gripper 4 and an active gripper 5 connected to the pull 3 for fastening the cylindrical part 6 of the microwave resonator 7 installed with a gap relative to the support pipe 2. The cylindrical part 6 is made of the material under study. The cavity of the cylindrical part 6, limited at the ends by the lid 8 and the bottom 9, is the resonant cavity of the microwave resonator 7. Through the cover 8 into the resonant cavity of the microwave resonator 7 coaxial communication lines 10 and 11 are introduced with systems for exciting and recording resonant oscillations. Measuring the resonant frequency f, determine the deformation of both stretching and compression of cylindrical part 6. Measuring the quality factor of the microwave resonator 7, it is possible to determine the changes in the structure of the material under study at various stages of low-temperature deformation. 1 il. with (L

Description

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The invention relates to the technique of measurements on microwave and can be used in low-temperature studies of the mechanical and structural properties of materials in the process of their deformation.

The purpose of the invention is to provide a possibility (-10STI of simultaneous study of the mechanics and structural properties of materials and the process of their deformation.

The drawing shows the construction of isomegne, tny oscillations of the type H „,„ p. The resonant frequency f of the microwave resonator 7 at the excitation of type H oscillations, „„ p, is associated with its geometrical dimensions.

credential cell for temperting temperature. Using the excitation system in

A study of the properties of materials. The cavities of the microwave resonator 7 excite an electrically measuring cell for low-dark- ature studies of the properties of materials that keep the cryostat 1, the support tube 2 placed in it, coaxial to the last 3 for

1 mechanical load application. Upper 15 The measured resonant frequency f, which is determined by the pull 3, is removed from the cryostat 1 to deform both stretching and

Rice connections to the loading mechanism. Compress the cylindrical part 6 of the UHF receiver The passive gripper 4, Zonator 7 also contains. By measuring the quality factor of the microwave connected to the support tube, and the active zone 7, it is possible to determine the changes

1NY capture 5, connected to 3 of the structure of the studied material (change in the structure of the surface layer

Repleni of the cylindrical part 6 of the microwave generator 7, installed with a gap relative to the support pipe 2. The cylindrical part 6 of the microwave resonator 7 is made of the material under study. The cavity and the IL-11 chapel 6, bounded with 25 highlanders kripkoy 8 and bottom 9, is a re-) onap cavity of the microwave resonator 7. Coaxial lines are introduced into the resonant cavity of the microwave | resonator 7: 10, 11 excitation systems and registration of resonant oscillations.

The measuring cell for low-temperature studies of the properties of materials | works as follows. I A cylindrical part of the microwave resonator 7 made of the material under study, together with cr1eSh1-: 8 and bottom 9 installed on it, are fixed in grips 4 | and 5. Passive gripper 4 is rigidly connected with iC supporting tube 2, and active gripper 5 - LC with the lower end of the rod 3. At the same time, coacchial lines 10 and 1 of communication are inserted into the opening of the lid 8.

The elements thus assembled are placed in a cryostat 1, the upper casing of the thrust 3 and coaxial lines 10 and 11 of the communication being removed from the cryostat 1 for connection with the loading mechanism and excitation systems 45 and registration of resonant co-oscillations, respectively. After pre-pumping the cryostat 1 to pressure

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resonant cavity, in which electromagnetic waves are scattered) at various stages of low-temperature deformation.

Claims (1)

Invention Formula A measuring cell for low-temperature studies of the properties of materials containing a cryostat and a supporting tube placed in it, a microwave resonator coaxial with it with a cylindrical part and a pull, the upper end of which is connected to the loading mechanism of the material under study, installed in the active grab, tied with a thrust and a passive gripper connected to the support pipe, characterized in that, in order to enable the simultaneous study of mechanical and structures. The cylindrical part of the resonator is made of the material under study and installed with a gap relative to the support tube, and the ends of the cylindrical part are connected to the active and passive grippers, with the active gripper being connected directly to the lower end of the rod. 10 Pa (10 mm Hg), ei o filled with refrigerant. If liquid helium is used as a refrigerant, then it is possible to conduct studies of superconducting materials. At the temperature of the liquid helium, the cap 8, the bottom 9 and the cylindrical portion 6 of the microwave cavity 7 serving as a sample, forming the resonant cavity of the microwave resonator 7, are in a superconducting state. Using the excitation system in Romagni, tnye oscillations of the type H „,„ p. The resonant frequency f of the microwave resonator 7 at the excitation of type H oscillations, „„ p, is associated with its geometrical dimensions. The cavities of the microwave resonator 7 excite the electr. Measured resonant frequency f, of the opreresonance cavity, in which the electromagnetic waves are scattered) at various stages of low-temperature deformation. Invention Formula A measuring cell for low-temperature studies of the properties of materials containing a cryostat and a supporting tube placed in it, a microwave resonator coaxial with it with a cylindrical part and a pull, the upper end of which is connected to the loading mechanism of the material under study, installed in the active grab, tied with a thrust and a passive gripper connected to the support pipe, characterized in that, in order to enable the simultaneous study of mechanical and structures. The cylindrical part of the resonator is made of the material under study and installed with a gap relative to the support tube, and the ends of the cylindrical part are connected to the active and passive grippers, with the active gripper being connected directly to the lower end of the rod.