RO130870A2 - Apparatus for determining mechanical characteristics - Google Patents

Abstract

The invention relates to an apparatus meant to determine the parameters of earth resistance to shear stress, applicable, in particular, in the field of geotechnics, and to a process for ensuring the shape of remanent earth samples. According to the invention, the apparatus comprises a piston (10) provided with two micro comparators (18), as well as with a dynamometer ring (12) and two cells (3) provided with two flexible membranes (7) for sealing purposes and with some mobile perforated pistons (6) to be brought into contact with the membrane (7) before the start of sample preparation and, further on, before the start of the test, to be withdrawn inside the cells (3) for allowing the sample deformation. The process, as claimed by the invention, provides for mounting, on a base plate (1), some plexiglass walls (2) and the cells (3) which are fixed by some angle bars (16), the position of the mobile perforated pistons (6) in contact with the rubber membranes (7) being secured by means of some worm presses (13), the walls (2) being then lubricated and the earth sample being prepared, after which the vertical load piston (10) and an upper metal plate (8) are mounted, followed by the mounting of a metal framework (14) and some tension members (15) in order to secure the position of pieces, a metal shoe (11) and the dynamometer ring (12) are placed between the press yoke and the rods of the piston (10), the micro comparators (18) are mounted onto the rods of the piston (10), pressurized water is introduced into the cells (3) and the position of the pistons (6) is maintained for 30 min, after which, by rotating a lever (5), they are withdrawn inside the cells (3) for allowing the free longitudinal deformation of samples.

Description

APPARATUS FOR DETERMINATION OF MECHANICAL CHARACTERISTICS

The invention relates to an apparatus for determining the compressive shear strength of earth samples, used in particular for research in the field of geotechnics and foundations.

Several devices used for research in the field of geotechnics and foundations with the same purpose are known. Thus, an apparatus is known which ensures the shape of the samples from non-cohesive soils by pouring the material inside metal molds lined with rubber membranes. After making the sample, by compaction, with the help of a vacuum pump, a suction pressure is created inside the rubber membrane. Remove the metal mold and the sample, contained in the rubber membrane, is placed in the test apparatus.

There are also known devices which, in order to ensure the shape of the samples from cohesive soils, use metal molds, in which the material is introduced, after which the surplus is removed by shaping according to some previously provided grooves.

These devices have the following disadvantages:

- the procedures for preparing the samples are complicated and require additional tools (molds, vacuum pumps, etc.);

- difficulties arise due to the use of suction pressure in terms of controlling the properties of non-cohesive soil samples during production;

- after manufacture, the handling of the samples, necessary to place them in the test apparatus, may alter the properties of the test pieces;

The problem solved by the invention consists in making and testing soil samples directly in the apparatus for determining the mechanical characteristics, thus simplifying the procedures currently used and improving the accuracy of the results.

The apparatus for determining the mechanical characteristics of soils, according to the invention, two plexiglass side walls and two pressure cells are arranged, the pressure cells being provided with perforated movable pistons to ensure the shape of the sample during manufacture and rubber membranes for sealing during the actual test, and at the top of the apparatus a upper metal plate fixing the plexiglass walls, and is also provided with three holes with passage parts through which slides a vertical loading piston, the position of the metal parts being ensured by pressing on the plexiglass plates with the help of tie rods, screw presses and a disposed metal frame longitudinally, the apparatus described allowing loads to be applied in the longitudinal direction of the ground sample by pressurizing the pressure cells, after which the perforated movable pistons retract inside the cells, and, by means of the vertical loading piston, act on the sample with increasing force, until the moment he gives in.

The invention has the following advantages:

- samples are made directly in the apparatus for the determination of mechanical properties without the use of other instruments (metal molds, vacuum pumps, etc.)

- it is no longer necessary to handle the samples after manufacture, thus eliminating a source of error

- the accuracy of the characteristics of the samples obtained is improved

C \ - 2 Ο 1 4 - - 0 0 4 6 5 2 Ο -Οδ- 2014

An embodiment of the invention is given below in connection with figures 1, 2, 3, 4 and 5 which represent:

- Fig. 1 - Side view

- fig.2 -Cross section

- fig 3 - Top view of the motherboard

- fig 4 - Top view of the upper plate

- fig 5a - Front view pressure cells

- fig 5b - Pressure cells-side view

- fig 5c - Pressure-section cells

The apparatus for determining the mechanical properties of the earths according to the invention comprises a base plate 1, on which are arranged two plexiglass side walls 2 and two pressure cells 3, cells 3 which in turn are provided with passage pieces 4 which, by actuating a lever 5, they allow the sliding of perforated movable pistons 6 that have the role of ensuring the shape of the sample, at the same time the pressure cells 3 being provided with rubber membranes 7 for sealing, and at the top of the device is provided an upper metal plate 8 which (fixes the plexiglass walls 2 in two grooves, and has three holes provided with passage pieces 9 which allow the sliding of the vertical loading piston 10 above which is arranged a metal shoe 11 on which stands the dynamometric ring 12 measuring the compression force; of metal parts 1, 3 and 8 is secured by pressing on the edges of the plexiglass plates 2 by means of screw presses 13, of the frame i metal 14 and tyrannies 15, and the plexiglass plates 2 will be attached to the base plate 1 by means of the posts 16; the apparatus thus described allows the application of loads in the longitudinal direction of the earth sample by pressurizing the pressure cells 3, the pressure being permanently monitored by means of manometers 17, then, by rotating the lever 5, the perforated movable pistons 6 * are withdrawn inside the cells 3 allowing deformation free of samples in the longitudinal direction, then, in the vertical direction, the ground sample will be loaded by moving the vertical loading piston 10 at a constant speed and monitoring the movement of the vertical loading piston 10 will be done using two microcomputers 18 mounted on the rods piston 10.

The following describes a process which ensures the shape of the sample during its manufacture directly in the apparatus for the determination of mechanical properties:

- mount the plexiglass walls 2 on the base plate 1 and fix it with the help of the fasteners 6; the pressure cells 3 are mounted on the base plate 1 and fixed by tightening the screw presses 13; ensure the position of the perforated movable pistons 6 in contact with the rubber membranes 7;

- lubricate the plexiglass walls 2 and then make the soil sample;

- mount the vertical loading piston 10 and the upper metal plate 8; the metal frame 14 and the tie rods 15 are mounted to ensure the position of the parts; also in this phase the metal shoe 11 and the dynamometer ring 12 are placed between the yoke of the press and the rods of the piston 10 in order to be able to measure the compressive force transmitted to the sample. Mount the microcomputers 18 on the rods of the vertical loading piston 10;

- pressurized water is introduced into the pressure cells 3; after pressurizing the pressure cells 3, the position of the pistons 6 will be maintained for 30 minutes and then, by rotating the lever 5, they retract inside the pressure cells 3;

- keeping the water pressure constant, a vertical force is applied to the sample by means of the vertical loading piston 10. The force will be monitored by means of (V 2 Ο 14 - - 0 0 4 6 5 2 ο - «- I have the dynamometer ring 12 arranged at the top of the vertical loading piston rods

10. It will also be constantly monitored its movement through the two microcomparators 18. The vertical force will be constantly increased until the ground sample yields.

Claims (2)

1. Apparatus for determining the mechanical properties of soils characterized in that for the purpose of determining the mechanical properties of soils working in the flat state of deformation, an apparatus is made consisting of a base plate (1), on which two side walls are arranged plexiglass (2) and two pressure cells (3), cells (3) which in turn are fitted with passage pieces (4) which, by actuating a lever (5), allow sliding perforated pistons (6) which have the role of ensuring the shape of the sample, at the same time the pressure cells (3) being provided with rubber membranes (7) for sealing, and at the top of the apparatus is provided an upper metal plate (8) which fixes the plexiglass walls (2). ) in two grooves, and has three holes provided with passage parts (9) which allow the sliding of the vertical loading piston (10) above which is arranged a metal shoe (11) on which stands the din ring metric (12) measuring the compressive force; the position of the metal parts (1,3 and 8) is ensured by pressing on the edges of the plexiglass plates (2) with the help of screw presses (13), the metal frame (14) and the tie rods (15), and the plexiglass plates (2). ) will be attached to the motherboard (1) by means of the brackets (16); the device thus described allows the application of loads in the longitudinal direction of the ground sample by pressurizing the pressure cells (3), the pressure being permanently monitored by means of manometers (17), then, by rotating the lever (5), the perforated movable pistons (6) are withdrawn inside the cells (3) thus allowing the free deformation of the samples in the longitudinal direction, then, in the vertical direction, the earth sample will be loaded by moving the vertical loading piston (10) at a constant speed and monitoring the vertical loading piston movement (10 ) shall be made by means of two microcomparators (18) mounted on the piston rods (10) Method for securing the shape of remanufactured earth samples according to Claim 1, characterized in that in order to ensure the shape and pore index for the remodeled earth, plexiglass walls (2) and cells are mounted on the base plate (1). (3), fasten with screws (16) or screw presses (13), ensure the position of the perforated movable pistons (6) in contact with the rubber membranes (7), lubricate the plexiglass walls (2) after making the ground sample, mount the vertical loading piston (10) and the upper metal plate (8); mount the metal frame (14) and tie rods (15) to ensure the position of the parts, place the metal shoe (11) and the torque ring (12) between the yoke of the press and the piston rods (10), mount the microcomputers (18) on the piston rods vertical loading (10), pressurized water is introduced into the pressure cells (3) after which the position of the pistons (6) will be maintained for 30 min and then, by rotating the lever (5), they are withdrawn inside the pressure cells pressure (3) so as to allow free deformation of the samples in the longitudinal direction.