SU1523914A1 - Meter of poissonъs coefficient - Google Patents

Abstract

The invention relates to a measurement technique and can be used to determine the mechanical characteristics of materials. The purpose of the invention is to simplify the construction of the meter and improve the accuracy of determining the Poisson's ratio by converting the displacements of the pushers to the linear movement of the slide. Under the action of the load, the pushers 4 and 5, interacting with the controlled deformable material, move the links 10 and 9 of the three-link telescopic rocker and the slide 11 by an amount proportional to the ratio of curvature changes in two coordinates, i.e. Poisson's ratio. This movement captures the sensor 16. 4 Il.

Description

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The invention relates to a measurement technique, in particular, to means for determining the mechanical characteristics of materials, and can be used in mechanical tests in machine-building.

The purpose of the invention is to simplify the design and improve the measurement accuracy.

FIG. 1 shows a meter, side view; Fig 2 is the same, top view; in fig. 3 is a diagram of loading the beam and placing the gauge; in fig. 4 - kinematic scheme.

The meter includes a housing 1 with three adjustable supports 2 located along two mutually perpendicular axes, which is a measurement base. In the middle between the supports 2 in the guide bushings ax 3, the followers 4 and 5 are adjustable along the length of the housing 1, the followers 4 and 5 with locknuts 6 and 7 are adjustable. The pushers 4 and 5 are hinged respectively to the extreme links 8 and 9 of the three-link telescopic rocker, the middle link 10 of the rocker arm is hinged fastened to the slider 11. The slider has the ability to move along the roller guide 12, which is located in the stand 13, which is connected with the housing 1. 11 rub; tn - 14 and 15 connect links of a bark; : c. i.: with the casing and press the slider 11 to the parallel guides 12. Sensor 16. The movement of the slider, for example, cond. located in borderline 17, fastened to the stand 13.

To determine the Poisson's ratio (Fig. 3), the gauge 18 is mounted on the beam 19 (cantilevered or loaded on a pure bend) so that the directions of its bases coincide with the direction of the main curvature of the beam. After installing the meter and fixing it by adjusting the length of the pushers 4 and 5, the slider 11 is moved to the initial position (.4) of the AOW that it occupied during the preliminary calibration of the meter, and the zero reference point is fixed, while the displacement sensor 16 is not adjusted.

When the beam is loaded along one coordinate (OX), it bends in the direction of the axis OZ in the positive direction (+ sign), and along the other board (OY) in the opposite direction (sign-). When loading the beam

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force P, the pusher 4 rises up and there is no link 8 of the rocker arms behind it. The value per day is proportional to the measurement of the curvature of the beam in this direction. The pusher 5 is lowered down and there is no link 9 of the rocker arms, the amount of lowering is proportional to the change in the curvature of the beam in the other direction. Thus, due to the effect of force P, the shaft will move to a new position (Fig. 4) AO B and move the slider 11 along a roller guide 12 to a new position per distance (fixed by the displacement sensor 16) proportional to the ratio of curvature changes over two coordinates, i.e. Poisson's ratio. In the event that another force is applied, e.g. 2P, the displacement of the pushers 4 and 5 is twice as large, however, the position of the slider does not change and, therefore, the distance D (AOR) .

Thus, the use in the Poisson gauge of a three-section telescopic rocker spring-loaded to the body, which is connected with extreme links with pushers, and with a medium member with a slider that has a sosmo; the kios-1 l has to move along the roller: iM guide, simplify the design of the meter and improve the accuracy of 1g measurements.

Claims (1)

The invention of the Poisson Ratio Meter, comprising a housing, on which two supports are located on two mutually perpendicular axes and in the middle between them are two pushrods normal to the housing and a displacement transducer kinematically associated with them, 4TOj to simplify the design and increasing the accuracy of measurements, the kinematic connection is made in the form of a slider and a three-link telescopic rocker spring-loaded to the body, the extreme links of the rocker arm are connected by means of push-rod hinges, which are adjustable in length, and the middle link of the rocker arm is connected to a slider mounted with the help of a hinge by means of a hinge with respect to the body by means of roller guides. 13 J8 Fi9.