SU572684A1 - Device for shear-testing of adhesion bonds - Google Patents

Description

Bones 2 and 3 facing each other are made in the form of membranes 13 and 14, each of which is associated with clamping elements 15 and 16.

On support 4, a nut 17 with a steering wheel, with which elements 18 and 19 are connected, of a sliding rod, having a right and left thread, is mounted.

The element 18 of the sliding rod is equipped with a plate 20, the diameter of which corresponds to the diameter of the clamping element 15, and is connected to it by a spring 21.

Element 19 of the split rod is provided with a plate 22, the diameter of which corresponds to the diameter of the clamping element 16, and is connected to it by a spring 23.

The movement of the clampable elements 15 and 16 while rotating the nut 17 is provided by the guide pins 24 and 25. On the paired samples 26 and 27 installed in containers 2 and 3, respectively, pressure prisms 5 are hingedly connected to rigid centers 10 and And membranes 8 and 9.

Opposite of the clamping elements 15 and 16, parts of samples 26 and 27 carry devices 6 for clamping in the form of strips pressed against rollers 7.

The beam 12 is provided with pins 28 against which the pins of the indicators 29 and 30 abut.

The device works as follows.

Samples 26 and 27 are mounted respectively in capacitance 2 and 3.

By rotating the nut 17, the specimens are pressed against the clamping elements 15 and 16 of the membranes 13 and 14 through the springs 21 and 23 to the fixtures 6.

After that, the pressure prisms 5 are installed on the samples, the containers 2 and 3 are covered with lids so that the rigid centers 10 and 11 adjoin the iris balls and the rocker arm 12 with indicators 29 and 30 are installed on these rigid centers.

The container 2 is filled with an aggressive liquid. By applying force P to the yoke with the aid of the head 31, they produce shear stresses in the adhesive joints of the specimens.

The pressing force of one of the specimens to the movable slats is automatically redistributed to both specimens by springs 21 and 23.

In the process of testing, the specimens are under the influence of the same force fields creating shearing stresses and compensating for the tearing forces in the glue lines.

The creep of the samples under the action of equal force fields will be the same, and the difference between the indications of indicators 29 and 30 will fix the kinematics of deformation of the adhesive joint under the action of only an aggressive medium. From the difference between the strengths of samples 26 and 27, one can judge the strength of the adhesive bonding on the splitting when exposed to this medium.

The presence of membranes with rigid centers and a communication system of the centers with the help of springs and composite traction makes it possible to apply to the paired samples located in isolated containers the same force fields. it

leads to the same elimination of tearing efforts in glue seams and to an increase in the accuracy of measuring the deformations and strength of the indicated joint from the effect of an aggressive environment only without distorting influence

elastic imperfections of materials and unequal external influences.

Claims (2)

1. GOST 16483.5-73. Wood. Methods for determining the strength when splitting along the fibers. 2. Khrulev V. M ,, Durability of laminated wood, M., “Forest industry, 1971, p. 38. y V / / /// / /, y, ii ////) I IIll V 6 26 J3 2 VЧ- 25W 75 27 8 0 78, / / /. U 6,