AT394905B - Method and equipment for measuring the properties, particularly the ability to be compacted, of a stiff, castable compound - Google Patents

Abstract

Method and equipment for measuring the ability to be compacted of a fresh concrete compound, in order to obtain information about the ability of the compound to be used with regard to the strength properties of a product cast therefrom. A sample 20 with a specific weight m is removed from the compound and is compressed in two opposite directions with a constant force P and subjected to shear compaction between two inclined surfaces 13, 14, which extend parallel to each other and change their position by means of rotation. The volume V, Vt of the sample is determined at the beginning of the compaction and after a predetermined compaction work, whereupon the change in volume of the sample is compared with experimentally defined limiting values. The equipment comprises a compaction device, with which the sample in a container can be subjected to shear compaction, and means to keep the sample compressed during the compaction. <IMAGE>

Description

AT 394 905 B

Method and device for measuring the properties, especially the compressibility of a rigid, pourable mass.

This invention relates to a method for measuring the properties, particularly the compactibility, of a rigid, pourable mass, such as a fresh concrete mass, whereby - a sample with a predetermined weight is taken from the mass, - the sample is subjected to a compaction effect, and - the size of the compression (S) of the sample and the work used to determine it.

In the concrete industry, technical developments have led to the use of concrete compositions that contain water to an ever lesser extent. The reason for this is that the lower the water content of the mass, the better the strength values achieved, provided that the other proportions of the mass remain unchanged. The theoretical, optimal amount of water needed for hydration is 22-40 percent, which is based on the amount of cement, with the water / cement ratio, i.e. H. the w / c ratio is in the range of 0.22-0.40. These so-called earth-moist masses are difficult to form and pour, also because the current tendency is to grind the cement extremely finely in order to use the resulting more efficiently and quickly To enable strength properties of the concrete. Such masses are called rigid or semi-rigid

Soil-moist concrete masses are mainly used in modern slipform construction methods. For plastic masses there are satisfactory methods and arrangements for measuring the properties, especially the compactibility of the mass, while there are no suitable methods and arrangements for precisely measuring the compressibility of rigid and semi-rigid masses, which is a significant disadvantage represents when using concrete masses. The denser the concrete in the finished product, the higher the strength of the product achieved, and therefore information about the compactibility of a pourable concrete mass is very important for achieving an acceptable end result.

The compressibility of a concrete mass depends essentially on the stiffness of the mass. If the mass is too stiff, the casting obtained is poorly compressed and contains a lot of air bubbles, while a plastic mass leads to low strength values and, moreover, it is difficult to control the shape and the tolerances of a product cast without a solid mold. The compressibility of a mass is influenced not only by the amounts and proportions of the various ingredients, but also by their quality and size and other such varying factors. It is therefore important to have a reliable knowledge of the compactibility of the mass, even before the mass is poured.

The plasticity and compaction properties of plastic concrete masses are now being investigated according to various methods, among which the following could be mentioned as the most important: a compaction factor test, the concrete mass being caused to pass through a measuring device by means of falls, a consistency test, i. H. measuring the depression, removing the casting mold of a concrete cone compacted in a certain way and measuring a depression remaining in the cone, - a stirring time test, d. H. a Vebe test, where a depression created in a conical concrete body is measured in the same way, but now the subsidence is intensified by shaking.

These methods and various other methods of examining the mass are suitable for plastic masses and some of them are also suitable for so-called semi-rigid masses. The stiffer the mass, the worse the possibilities now available for accurately determining the properties of the mass.

In the case of rigid concrete masses, it was previously necessary to try to determine the compressibility of the concrete mass to be poured simply by touching it with hands, based on professional skills and experience, due to the lack of suitable measuring methods and equipment. However, examining a fresh, stiff mass with your hands is unreliable and subjective, which often leads to warpage of molded products.

This invention has for its object to provide a method which avoids the disadvantages mentioned above and enables a more precise measurement of the compressibility of a rigid, pourable mass. This object is achieved by a method according to the invention of the type mentioned at the outset, which is characterized in that - the sample is compressed with a constant force in two opposite directions, - the sample is subjected to shear compaction under a constant pressure between two inclined surfaces, which surfaces extend parallel to one another and change their position by rotation, and - the volume of the sample at the start of compaction and is measured after certain compression pulses. -2-

AT 394 905 B

The invention is based on the idea that the determination of the compactibility of a concrete mass with a machine is carried out under exactly uniform conditions, which are reproducible for different samples, the information obtained about the compactibility being always reliable. Finnish patent specification 64 073 describes a technique for the efficient compaction of rigid concrete masses, i. H. a so-called shear compaction process. In this measurement, the various parameters, such as the weight of the sample and the pressure applied to the sample, can be kept constant, so that only the composition of the sample varies. In the manufacture of concrete pieces, a series of tests is carried out with a special casting machine, namely to determine the compressibility measured on the sample, i.e. H. da * change in density, and further to determine the strength of the finished cast products, thus obtaining an upper and lower limit for the compactibility of the mass, which limits are specific to this particular casting machine and within which limits it is easy to include these concrete masses Pour success to desired products.

Thanks to the method according to the invention, it is possible to adjust the composition of the concrete mass to be produced in a concrete mixer directly on the basis of the defined measured values obtained with the method according to the invention about the compressibility of samples so that the density and the fresh strength of the cast product have the desired values. In this way it is possible to avoid discarding finished products and the associated unnecessary work. The compressibility of a rigid concrete mass can be examined just as precisely as was previously only possible with plastic masses. The method according to the invention is therefore particularly suitable for controlling the production of concrete products.

Measuring the compressibility according to the present invention provides accurate information about an increase in the density of the sample taken from the mass when the mass is compressed in a precise, predetermined manner. The density of the sample can be continuously determined during the test using conventional calculations if the sample is weighed and the volume of the sample mass is continuously monitored in the testing device. Both the final density of the test piece and the changes in density at the initial stage of the test are important for the compressibility.

To estimate the quality of the concrete to be poured, it is particularly important to know how firm the concrete will be after the hydration process is completed. In practice, the quality of the concrete is checked using strength test pieces and samples cut from the finished product.

It is difficult and unreliable to form strength test pieces from a rigid concrete mass because it is difficult to make compact samples using the current testing procedures. A jarring is not always achieved by shaking. An expensive, useful product is often spoiled by cutting a sample from the finished product.

The present method enables compact test pieces of uniform quality to be formed, so that the compressibility of rigid masses can also be examined. The invention ensures that the compression of the samples into test pieces is always carried out with one machine under exactly uniform circumstances and that the resistance measurement results of different laboratories are comparable with each other both when fresh and when hardened.

The invention also relates to a device for applying the method described above, which device is characterized in that a compacting device is provided with two compacting plates, the surfaces of which extend parallel to one another and which are rotatable about an axis of rotation which is inclined with respect to the surfaces of the compacting plates, in order to apply a shear seal to the sample in the container from two opposite directions, and a power-driven displacement device is provided for pressing the one compression plate onto the other compression plate.

The shear compaction to be directed onto the sample can be controlled very well in a device of this design, so that all measurement results obtained from the samples under uniform measuring conditions are mutually comparable.

The invention is described in more detail below with reference to the drawing. In the drawing they show

Fig. 1 is a detailed front view of the construction of a device according to the invention in a filling position, Figures 2 and 3 are sectional views of the device according to the lines (Π-Π) and (III-III) respectively

1, FIG. 4 shows an enlarged axial section of a compression container of the device with its compression pistons in an operating position, FIG. 5 shows various operating stages of the method according to the invention, and FIG

6 shows an example of a compactibility measurement of a concrete mass carried out by means of the device.

The device shown in Figures 1-4 comprises a vertical compression cylinder (2) attached to a frame (1) and a lower compression piston (3) attached to a rotatable vertical axis (4) for closing the lower end of the cylinder.

A vertical axis (6) is rotatably mounted on a slide (5), which is mounted vertically sliding on the frame (1) above the compression cylinder (2). An upper compression piston (7) is for closing -3-

Claims (7)

AT 394 905 B of the upper end of the compression cylinder attached to the mentioned axis (6). The vertical axis (6) is fastened to a piston rod of a hydraulic cylinder (8) mounted on the frame (1), by means of which piston rod the slide (5) and its piston (7) can be displaced vertically. The base of the frame (1) carries a gear (9), which with the vertical axis (4) of the lower compression piston (3) and via an intermediate axis (10) and a transmission gear (11) with the vertical axis (6) of the upper compression piston ( 7) is connected so that the two vertical axes rotate at the same speed. The gear (9) is set in rotation by an electric motor (12). Each compression piston forms a round plate (13) or (14), which is arranged inclined with respect to the vertical axis. The two pistons are mounted obliquely on the axes in such a way that their plates (13), (14) lie parallel to one another, as in Figures 1 and 2 can be seen Furthermore, the device comprises a measuring table (15) with z. B. display instruments (16-18) for the pressure of the hydraulic cylinder (8), the number of revolutions of the compression piston (3) and (7) and the displacement of the carriage (5) is provided. A scale (19) is attached to the side of the frame (1) to indicate the vertical position of the carriage (5) directly. 5 illustrates a measuring method carried out by means of the device. A sample (20) with a predetermined mass (m) is taken from the concrete mass. The sample is poured into a compression cylinder (2) with a cross-sectional area (F) and the upper compression piston (7) is lowered onto the sample. The piston (7) is pressed against the sample by means of the hydraulic cylinder (8) with a constant force (P). The pistons (3) and (7) are then rotated by means of the electric motor (9), their plates (13), (14), which are mounted in an inclined position, exert a shear compression effect on the sample. The result of this is that the sample is compressed by a distance (S) after a predetermined number of revolutions (n) of the pistons, which can also be read off the scale (19), the volume of the sample being reduced to a value (Vf) changes The compacted sample can be taken as a cylindrical sample piece (22), on which the strength properties of the concrete mass are calculated after hardening. The electric motor (9) is controlled with a freely selectable program so that it stops at predetermined time intervals, the number of revolutions (n) and the corresponding reductions (S) being read. Alternatively, the electric motor (9) can run continuously, the revolutions of the pistons (3) and (7) and the countersinks being continuously transferred to the memory of a process unit (23) in order to increase the compressibility of the sample by means of a registration device (21) demonstrate. The compressibility of the sample can be measured as the density value of the Ptobe as a function of the number of revolutions of the inclined surfaces d. H. as a function of the number of compression pulses transmitted to the sample. Figure 6 shows an example of a way to control the compactibility of the concrete. A curve (A) in FIG. 6 shows the change in the density of a sample taken from the concrete mass as the compaction progresses when the sample is subjected to shear compaction under the action of a constant compression pressure P = 1.5 bar using the device described earlier. The water / cement ratio w / c of the concrete mass shown by curve (A) was 0.328. Correspondingly, curve (B) shows the results of a test carried out with the same concrete mass when the water / cement ratio is 0.361. Otherwise, the mass is identical in these two tests. In this example, the pouring machine successfully performs the pouring process using these two masses of concrete. Experience shows that this concrete pouring will also be possible with other types of concrete, provided that their compaction properties lie between curves (A) and (B) when the measurement is carried out according to the invention. By means of the method according to the invention, it is possible to quickly, ie. H. to measure in a few tens of seconds, whereby reliable knowledge of the applicability of the concrete mass to the respective casting work is obtained by means of a specific casting machine. The drawings and the description directed to them are only intended to illustrate the idea of the invention. The inventive method and the inventive device can vary within the scope of the claims. The invention is also for measuring the properties of other fresh concrete of similar masses, such as e.g. B. Occurrence in brick production, and suitable for measuring certain geodetic properties of the soil is removed from the mass with a predetermined weight, - the sample is subjected to a compression effect, and - the size of the compression of the sample and the work used for it are determined, characterized in that - the sample (20) with a constant force (P ) in two opposite «! Directions are compressed, - the sample is subjected to a shear compaction under constant pressure between two inclined surfaces (13, 14), which surface «! extend parallel to one another and change their position by rotation, and - the volume (V and Vt) of the sample is measured at the beginning of the sealing and after certain compression pulses (n). 2. The method according to claim 1, characterized in that the sample (20) for determining its density after the V «seal is weighed and measured. 3. The method according to claim 1 or 2, characterized in that the volume (Vt) of the sample (20) or their density as a function of the number (n) of the revolutions of the said inclined surfaces (13, 14) is measured. 4. The method according to claim 1, characterized in that the strength of a test piece (22) consisting of the compressed sample (20) is determined after its hardening. 5. Device for measuring the properties, especially the compressibility of a rigid, pourable mass, such as a fresh concrete mass, which device - a container for a concrete sample with a predetermined weight (m), - a compression device for compressing the sample, and - a measuring device for measuring the compression of the sample, characterized in that a compacting device is provided with two compacting plates (13, 14), the surfaces of which extend parallel to one another and the axis of rotation (4) which is inclined with respect to the surfaces of the compacting plates (13, 14) , 6) are rotatable in order to exert a shear seal on the sample (20) located in the container (2) from two opposite directions, and a power-operated displacement device (6, 8) is provided for pressing the one compression plate onto the other compression plate. 6. Device according to claim 5, characterized in that the compression plates (13, 14) are arranged on pistons (3, 7) which extend from opposite sides in the cylindrical container (2), these pistons rotating on coaxially Axes (4,6) are mounted in such a way that the compression plates are inclined with respect to the rotating axes and that the device is provided with an instrument (17) which indicates the number of revolutions (n) of the rotating axis (6) 7. Device according to claim 6, characterized in that the rotating axis (6) of a piston (7) by means of a pressure medium-operated working cylinder (8) is axially displaceable, namely for pressing the compression plate (14) to the in the container (2) introduced sample (20), and that the device is provided with an instrument (19) that the axial movement of the rotating «! Axis (6) shows 2 sheets of drawing «! -5-