DE6605595U - TESTING DEVICE FOR DETERMINING THE MECHANICAL PROPERTIES OF CONCRETE - Google Patents

Description

C. Ik 379 / 42k GM

C Test device for determining the mechanical

Properties of concrete J

The innovation relates to a test device for determining the mechanical properties of concrete, with a rigid base that carries two fixed supports on which the test specimen from the concrete to be tested, with at least one hydraulic inde that loads the test specimen and is in contact with at least one with the test body standing probe for measuring the size of the deflection.

Knowledge of the mechanical properties or characteristic The value of a concrete that is exposed to a temperature gradient turns out to be particularly important in certain constructions in the field of nuclear engineering, in which concrete bodies with suitable wall thicknesses are used mainly used to achieve a shield against radioactive radiation. This is especially true for nuclear reactors, the reactor core of which is housed inside a housing or protective jacket made of prestressed concrete is, d. H. in a hollow concrete body, its inner wall surfaces or layers can be exposed to considerable heating, while the outer wall areas stay at ambient temperature.

The main purpose of the innovation is to

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to create a simple and stable test device, with which relatively accurate measurements on test specimens or panels can be done depending on the intended application can consist of ordinary concrete or of prestressed concrete, the concrete being a is exposed to a given temperature gradient.

The test device of the type mentioned is characterized according to the innovation that the plate-shaped test body is exposed to a temperature gradient by heating devices which are arranged on one of the surfaces of the test body, that a guide for air of monitored temperature is provided, which with the other surface in thermally conductive contact means that the ¥ inde or _o winches compensate for the deflection that occurs due to the heat gradient between the two surfaces of the test body, and that the buttons of the winch or winches control.

In a preferred embodiment of the innovation, the test body is arranged in a horizontal position, the heating devices are provided on its upper surface, while the probe (s) with the lower one Face in contact; additional buttons can also be evenly distributed under the test body, to measure the local deformations of the test body at any number of points. All buttons rest on one flat reference table, which is connected to the two supports that serve to support the test body and is held in an exactly horizontal position »In addition, thermocouples are arranged on the test body to provide a perform continuous display or registration of the temperature.

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The heating devices preferably consist of metal plates which are electrically heated and are provided with a cover made of a heat-insulating material in order to keep the heating temperature uniform on the corresponding surface of the test body. Finally, the housings of the winches, which load the test body, are fixed on an abutment or cross-main beam that is rigidly connected to the rigid base; the "winches act on the test specimen via load-distributing elements.

An embodiment of the test device according to the innovation is illustrated in the single figure of the accompanying drawing, as a vertical section.

As can be seen from this figure, the device comprises a base 1, which can be made of metal, but is preferably made of concrete- This base rests on a horizontal floor or foundation surface 2 and has two supports 3 and 4, the to are intended, a test body in the form of a plate 5

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As already stated above, this test plate can consist of reinforced or prestressed concrete. In the latter In the case, the plate contains at least one tensioning cable 6, which goes through from one side of the plate to the other this passes through and fixed at both ends via anchors 7 and 8 on two support bodies 9 and 10 is, with the help of which the rope 6 can be braced against the concrete slab.

their top lie on the concrete slab 5 a Row of metal plates 11, which are designed as heating plates

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formed and connected to an electrical power supply (not shown) are connected to heat the corresponding surface of the plate. These hot plates are covered and surrounded by a sufficiently thick layer 12 of a heat insulating material to maintain the heating temperature evenly on the concrete slab surface

On its underside, the concrete slab is provided with a cover that delimits a wide channel 13 in which an air flow with an adjustable or monitored temperature is generated, so that the air washes around the underside of the concrete slab · In addition, there is a table below the concrete slab i4 is arranged, which is carried by the two supports 3 and 4 via brackets 15 and 16. The upper surface 17 of this table is held precisely horizontally. On this table surface - essentially in the middle of the concrete slab 5 - a button 19 or "main button ^{11" is} arranged, which continuously determines the degree of deflection or the deflection under the action of the heat gradient between the upper and lower surface of the 2s "icrr *" ^v 13.'fc'fce measures this Hau ⁿ ttastsr 1 ° precisely to the automatic regulation of the hydraulic pressure, which acts in two bindings or pressure cylinders 20 and 21, -srelclte exert a pressure on the upper surface of the concrete slab. These two winches are supported by a crossbar 22, which is supported on the fixed base 1 and is fixed thereto by suitable fastening devices such as 23 "the two winches are provided with connection lines 2k, serve the pressure medium source (not shown) for feeding the winds from one of the main button 19. The piston rods 25 and 26 of the two hydraulic winches 20 and 21 thus exercise via intermediate members 27 and 28, we I am a

A suitable distribution of the pressures causes a pressure on the upper surface of the concrete slab 5. This
Pressure is so great that it allows a compensation of the amount of deflection or the deflection of the concrete slab under the effect of the temperature gradient between the upper and the lower surface side of this slab. On the surface 17 of the horizontal table 14, further buttons 29 are also provided as auxiliary buttons, which are evenly distributed around the main button 19. In the present exemplary embodiment, these additional buttons 29 are intended to measure local deformations of the concrete slab during the test. Finally, thermocouples (not shown) are used
used to monitor the temperature at different points on the concrete slab.

Claims (7)

Protection claims 1. Test device for determining the mechanical Properties of concrete, with a rigid base that supports two solid supports on which the test specimen is made the concrete to be tested is at rest; with at least one hydraulic winch that loads the test specimen, and with at least one probe in contact with the test body to measure the size of the deflection, characterized in that the plate-shaped test body (5) through a temperature gradient Heating devices (11) are exposed, which are arranged on one of the surfaces of the test body, that a guide (13) is intended for air at a monitored temperature that is in thermal contact with the other surface stands that the winch or winches (20, 21) compensate for the deflection, which is due to the heat gradient between the two surfaces of the test body, and that the buttons (19) control the winch or winches ^ / 2. Test device according to claim 1, characterized in that that the test body (5) is arranged in a horizontal position, the heating devices (ii) on its upper side Surface are provided while the probe (s) (i9) is in contact with its underside surface stand./ 3. test device ns.ch claim 1 or 2, characterized in that for measuring local deformations of the Test body (5) further buttons (29) are distributed under the test body. §S055952§.g.70 H · 4. Test device according to one of the preceding outbreaks. For additional buttons, see sineiü sbes.sn 3e— Zugstiseh. rest, characterized in that the reference table. (i4) is connected to the two supports (2, 3) to hold the test body (5) and is held in an exactly horizontal position. s 5ο test device according to one of the preceding Claims, characterized in that on the test body Thermocouples are provided for continuous display or registration of the temperature. / " 6. Test device according to one of the preceding claims, characterized in that the heating device «· lines consist of electrically heated plates (11), with a cover (12) made of a thermally insulating Material are provided to the heating temperature on the corresponding surface of the test body (5) evenly to keep·/ 7. Test device according to one of the preceding claims, characterized in that the test body (5) loading winches (20, 21) are attached to an abutment or cross-main beam (22) which in turn is fixed to the rigid base (i), and that the winches act on the test body via load-distributing elements (27, 28) y