SU1640627A1 - Method of determination of strength of concrete - Google Patents

Description

The invention relates to non-destructive methods for monitoring the strength of concrete and can be used to assess the strength of concrete structures.

The purpose of the invention is to increase the productivity and information content of the control.

The drawing shows a block diagram of a device for implementing the method for determining the strength of concrete.

The device consists of a generator

Microwave oscillations, the output of which is connected to the input of the microwave modulator 2, to the control input of which is connected the output of the generator 3 of modulating ultrasonic vibrations, the second output of which is connected to the first inputs of the meters 4 time intervals, the second inputs of which are connected to the receiver 2 of concrete and can be used for Strength assessment of concrete structures. The purpose of the invention is to increase the productivity and information content of the control. In the controlled product, ultrasonic vibrations are excited by a modulated microwave field focused at a given point. Accept ultrasonic vibrations propagating in a concrete sample, receivers of ultrasonic vibrations. The time delays between the first emitted pulse of microwave oscillations and the first received pulse of ultrasonic vibrations by each receiver are measured, which, taking into account the calibration dependence, determine the strength of concrete in each of the sections of the sample.

s.p. f-ly, 1 ill.

SU 1640627 A1 mi 5 of ultrasonic vibrations mounted on sample 6, the output of the SBN modulator 2 is connected: connected to the antenna 7 having a focusing system 8.

The essence of the method lies in the fact that the controlled product emits electromagnetic microwave oscillations, modulated in amplitude by the frequency of ultrasonic vibrations. With this bundle _; Microwave fields focus in this way. 'so that the focus point is inside the volume of the controlled sample at a given depth. A focused microwave field beam causes local heating of the concrete sample at the focal point * due to the intense absorption of free and bound water; microwave radiation that occurs with the release of heat. In focus place

1640627 4 the density of microwave radiation is maximum. There is an intense local heating (according to the principle of a microwave oven). Since the microwave radiation flux is modulated by the frequency of ultrasonic vibrations, Inten. The heating intensity varies in time with the same frequency.

Local heating of a concrete sample leads to local stresses in the focusing region. The voltage периодически periodically varies with the modulation frequency of microwave radiation, which leads to the excitation of elastic vibrations in the sample with a source in the focusing region of the microwave field.

Excited ultrasonic vibrations propagate in the concrete sample and are received by the ultrasonic vibration receivers, 20, which are installed at N points of the concrete sample. The time j delays between the first emitted by it ^{: the} microwave pulse and the first received pulse of ultrasonic vibrations by each 25 receiver are measured, which, taking into account the calibration dependence, determine the strength of concrete in each of the sections of the sample.

The method is as follows.

On the sample 6 are installed receivers 5 ultrasonic vibrations. The generator 1 of the microwave oscillations and the generator 3 of the modulating ultrasonic vibrations are turned on. The electromagnetic microwave oscillations of the generator 1. are modulated in amplitude by the microwave modulator 2, which is controlled by the generator 3 of modulating ultrasonic vibrations, emitted by the antenna 7 and focused ₄ θ at a given point of the concrete sample 6 by the focusing system 8. Ultrasonic vibrations excited in the focusing area by modulated microwave of the oscillations are received by receivers on May ₄ $ ultrasonic oscillations and fed to the first inputs of gauges 4 time slots to the second input of which receives the modulating kolebayiya generator 3. Measuring 4 time interval '5U shafts measured time intervals bi (where 1 = 1,2, ..., Ν) between a first pulse of microwave oscillations, .SVCH-modulyatorom.2 skipped, and the first received pulse of ultrasonic oscillations each priem.nikom.

i · Thus, the proposed method eliminates the need for a piezoelectric transducer of ultrasonic vibrations by non-contact excitation of ultrasonic vibrations in a concrete sample by a modulated microwave field focused at a given point, and simultaneously measure the strength of a concrete product in several sections of the sample. This simplifies the measurement process and increases the information content of the control. The invention can be used to assess the strength of concrete structures, as well as when conducting research to optimize the production technology of reinforced concrete products.

Claims (2)

one (21) 4468) 83/28 (22) 07.29.88 (46) 04/07/41. Bul № 13 (71) Belarusian Polytechnic Institute and the Scientific Design and Technical Association Belstroynauka Gosstro BSSR (72) V.G.Sevast Nenko, L.N. Danilevsky and N.N. Punko (53) 620.179.16 (088.8) (56) USSR Author's Certificate (R 295080, class G 01 N 29/00, 1970. USSR Author's Certificate No. 1444655, cl. G 01 N 29/00, 1938. (54) METHOD FOR DETERMINING THE STRENGTH OF CONCRETE (57) The invention relates to non-destructive methods of strength control. concrete and can be used to assess the strength of concrete structures. The purpose of the invention is to increase the productivity and the information content of the control. In the controlled product, ultrasonic vibrations are stimulated by a modulated microwave field focused at a given point. Ultrasonic vibrations propagating in a concrete sample are received by ultrasonic oscillation receivers. The time delays between the first emitted microwave pulse and the first received pulse of ultrasonic vibrations by each receiver are measured, which, taking into account the calibration dependence, determine the strength of concrete on each of the sample sites. 1 h. n. cb-ly, 1 ill. § The invention relates to non-destructive methods for controlling the strength of concrete and can be used to assess the strength of concrete structures. The purpose of the invention is to increase the productivity and inactivity of controls. The drawing shows a block diagram of a device for implementing a method for determining the strength of concrete. The device consists of a microwave oscillator 1, the output of which is connected to the input of the microwave modulator 2, to the control input of which is connected the generator 3 output of modulating ultrasonic oscillations, the second output of which is connected to the first inputs of time interval meters, the second inputs of which connected to the receiver .i m 5 ultrasonic vibrations installed on the sample 6. The output of the SCH-modulator 2 is connected to the antenna 7, which has a focusing system I. The essence of the method lies in the fact that the controlled product radiates electromagnetic microwave cribs, amplitude modulated by the frequency of ultrasonic vibrations. At the same time, the microwave field beam is focused in such a way that the Focusing Point is inside the volume of the test sample at a given depth. The focused microwave field beam causes local heating of the concrete sample at the point of biting due to the intense absorption of free and water-related microwave radiation, which occurs with the release of heat. At the focal point 31 N the microwave radiation density is maximum. Here, intense local heating of C occurs according to the principle of a microwave oven). Since the microwave flux is modulated by the frequency of ultrasonic vibrations, the intensity of heating varies with time with the same frequency. Local heating of a concrete sample leads to local stresses in the focusing area. The magnitude of the voltages varies periodically with the frequency of the modulations of the microwave radiation, which causes k to excite elastic oscillations in the sample with a source in the focusing region of the microwave field. Excited ultrasonic vibrations propagate in a concrete sample and are received by ultrasonic vibration receivers, which are installed at N points of the concrete sample. The time delays between the first radiated microwave oscillation pulse and the first received ultrasonic oscillation pulse by each receiver are measured, which, taking into account the calibration dependence, determine the strength of the concrete at each of the sample sites. The method is carried out as follows. Receiver 5 of ultrasonic vibrations is mounted on sample 6. 1 microwave oscillator and oscillator are turned on 3 modulating ultrasonic vibrations. Electro, rugged area of the product, 40 the microwave oscillations of the oscillator 1 are modulated by the amplitude of the microwave modulator 2, which is controlled by the oscillator 3 of the modulating ultrasonic vibrations, are emitted by the antenna 7 and focused at a given point of the concrete sample 6 by the focusing system 8. The ultrasonic oscillations excited in the focusing region modulated microwave oscillations, are received by receivers of 5 45 ultrasonic vibrations and are fed to the first inputs of 4 time intervals meters, the second inputs of which receive modulating oscillations of generator 3, 4 time intervals measuring meters p removed intervals of time ti (where, 2 ,, .., N) between a first pulse of microwave oscillations, passed .SVCH torom.2-modulation, and the received first 50 rn, and with the fact that, with neither the performance of the control, the impulse oscillations of the excitations, the modulations de modulated with the given frequency of the oscillations, but the propagation of the received oscillations uses between the first impulse and the first received ultrasonic oscillations 2. The method is populated by the fact that the oscillations are taken at one more point, and the pr is determined taking into account the controlled participation. 0 $ 0 five 0 a pulse of ultrasound vibrations by every receiver. I In this approach, the proposed method allows us to dispense with piezo emitters of ultrasonic vibrations by non-contact excitation of ultrasonic vibrations in a concrete sample by a modulated microwave field focused at a given point, and at the same time measure the strength of the concrete product in several areas of the sample. This simplifies the measurement process and increases the information content of the control. The invention can be used to assess the strength of concrete structures, as well as when conducting research to optimize the production technology of reinforced concrete products. Formula invented shadows 1. A method for determining the strength of concrete, which excites ultrasonic vibration pulses and electromagnetic microwave oscillations in a material, scans the internal area of the product with focused microwave oscillations, receives ultrasonic vibrations that have passed the controlled section of the product between the Focus point of the microwave oscillations and the reception point, and measure the propagation parameters of the received ultrasonic vibrations, which are used to determine the strength of the concrete in the control ruled area of the product This is the reason why, in order to increase the productivity and informativeness of the control, the pulses of ultrasonic oscillations excite microwave oscillations modulated in amplitude with a given frequency of ultrasonic oscillations, and as a propagation parameter of the received ultrasonic oscillations use the delay time between the first microwave pulse and the first received ultrasonic pulse, 2. The method is pop.1. Which is distinguished by the fact that ultrasonic vibrations are received at least at one more point, and the strength of concrete is determined taking into account the strength of concrete in controlled areas of the product.