Uniform Tension: the Problem and the Solution

Uniform Tension: the Problem and the Solution

ISSN 0236-3941. Вестник МГТУ им. Н.Э. Баумана. Сер. Машиностроение. 2017. № 5

For comparison, the same series (7 pices) of samples were tested with the use of

the same device under the conditions uniaxial tension (UAT). In this case the grippers

of the device was attached only to two opposite sides of the cubic sample. The results

are shown in the third row of the table. Thus the comparison of test results of samples

of UTAT and UAT becomes correct, since errors of transmission of forces through

the device, stress concentration, etc. for different types of tests are almost the same.

The destruction of all samples occurred in the working area and not at the area of

attachment of the grips, which indicates their suitability.

For all the samples as in UTAT and in UAT by using the diagram of the appa-

ratus of the testing machine were recorded the diagram "force-move of grips of testing

machine". As these diagrams for all samples were linear, then the energy of rupture of

the sample can be calculated as half of the product of maximum force by the move of

the grip. The average value (7 pices) of this energy is given in the last column of the

table.

For discussion of the obtained results let us consider an isotropic material with

equal strength in all three axes



Plexiglass is such a material. The time of the de-

struction at uniaxial tension is depicted by points lying on the axes of a rectangular

coordinate system



0, 0; 0,



0; 0, 0,



The postulate of Drucker, says that the

surface of plasticity should not be sunken [1]. By analogy we can assume that the sur-

face of strength should also not be sunken. In the limiting case, this may be the plane

passing through the above point. The case of UTAT would correspond to a beam hav-

ing equal angles with all three axes. By simple geometry it can be shown that the ulti-

mate strength under UTAT



UTAT

= 1,73 times less than in uniaxial tension



UAT



UTAT

= 1,73.

Again, note that the above is the case if the surface strength flat.

The results given in table show that



UAT



UTAT

= 1,39

which indicates either an error of the results of the experiments or of the fact that the

surface of strength are slightly convex.

A very important result which is in need of further reflection and discussion is

that. Despite the lower strength of the samples at UTAT than UAT accumulated sam-

ple energy to the point of destruction in the first case were almost two times greater.

This indirectly suggests that in the case of UTAT energy failure criteria may be more

preferable.

The recently published article [6] provides the test results of samples [5] from

polymethyl methacrylate with sample sizes coinciding with the sizes of our articles.

The main conclusions of this article coincide with the content of our publications.

3. In a similar way, tests were carried out with two series of samples of carbon-

carbon composite material (CCCM) of the type 3D. The first series had the size