DE537042C - Method for strength testing of fabrics - Google Patents

Description

Procedure for strength testing of tissues In order also to be proportionate to be able to determine the strength of the tissue in question on very small specimens, So far, testing methods have been used many times, according to which a bolt through pin specimen clamped in a frame is pushed through. The known test methods However, this type have the disadvantage that the test load regularly occurring physical phenomena are ignored. So reduce z. B. the dimensions of the test section to be tested during the load, as the outer threads in the test direction at the elongations of the test section slip and thus be withdrawn from the actual test. If z. B. at one effective bolt diameter of 5 mm on both sides only slides i mm, so means that's already an error of ¢ o 07o, which depends on the elasticity of the material accordingly can get bigger.

The lateral sliding of threads occurs not only when using smoother Round bolts, but also with those with protruding parts. So z. B. according to the method of J o h ü W e b b s, in which a bolt with protruding wedge-shaped Parts with a blunt end face is used, the sliding of the laterally lying Threads can hardly be prevented.

It has also been proposed to separate the sample section to do with knives. In principle, this procedure would be suitable if it were safer Delimitation and equal loading of the test piece, the lateral sliding of individual To prevent threads. V o n K a p f uses fine bolts with side knives, with which he cuts out an elongated strip from the Prolaestück. Because he but the cut leading up to the mounting clamps will be inside the frame Cross direction completely. interrupted, so the advantage of simultaneous tension of warp and weft, as offered by the frame clamping, is lost. This known methods do not result in any other test effect than the tensile strength test the elongated band with the same physical processes.

With the present new test method, the determination of the strength of tissues is used on very small samples, the sliding of the lateral, In the test direction lying threads effectively prevented, so that the known Process adherent errors are avoided here.

According to the invention, the weft threads are in a manner known per se clamped test piece all around, first at the points marked with x (s. Fig. Q.), Which lie in the main test direction of the test piece, using a razor-sharp Institutions cut through, and only so much that there was still a natural connection of the tissue is preserved. This is followed by the actual test load brought to action. The pressure pin, which is on two opposite edges, nui the width of the incisions is to prevent laterally lying threads from sliding off to prevent, provided with protruding knives.

Furthermore, it has been found that the accuracy of the measurement result is increased will, if the measurements of the load, not with a spring balance ,. but with a much stronger, known pendulum balance.

Fig. I relates to the use of the well-known round bolt, ) lach Rehse or A s h c r o f t, Figs. 2a and 2b refer to the use of the two wedge-shaped studs provided by J o h n W e b b s, Fig. 3 on the use of a narrow bolt according to von K a p f f and Fig. 4, on the new test methods. Fig. 5 shows the use of a pel @ dle scales for execution of the present test procedure.

In Fig. I, I (represents a ring-shaped clamp through which the Sample P is held while B is a bolt with circular cross-sections. The dotted line indicates the sample section that was originally under the end of the bolt was, in his position changed by the elongations of the experiment. The bolt is loaded thus a much smaller section, with the aforementioned test error results.

In Fig.2a, the bolt used under the same conditions leaves according to J o hn W e b b s (view from below) the blunt end parts of two protruding parts Recognize wedges. The rows of points indicate those parts of the main direction to be tested which are loaded in the initial stage of the experiment.

Fig.2b shows the rows of points caused by the elongation processes of the experiment are pulled apart, resulting in the similar sliding of the edge parts as in Fig. i.

Fig. 3 shows a sample in a rectangular frame clamp (4 y 4 cm), in which an elongated strip of 2 and 4 cm after the lines S, S "S2 S2 is cut out. B indicates the bracket of the bolt, the knife on both sides which resulted in the cutting lines. Because the cross direction cut through here is, there is no stretching in this direction under load, only that through the dotted lines indicated contraction (in the way you can see them from the Tear test knows) a.

In Fig. 4, which relates to the new testing method, B denotes the pressure stamp, K denotes the frame-shaped clamp, P denotes the test piece and the two crosses, those points where the tissue is cut before the actual load is applied. As in the test arrangements according to Fig. R and Fig. 2b, there is also an elongation in the transverse direction. In order not to impair the measurement result, the bare sides of the bolt are provided with protruding knives.

Iti Fig. 5 shows a pendulum balance known per se, in which the bolt age i is relieved by one weight 2 and by two opposing Pende13 Bind q crossing each other in different planes is loaded.

Claims (1)

PATENT CLAIM: "Method for testing the strength of fabrics, thereby characterized in that the specimen clamped on all sides before it is by means of a chisel-like or similarly designed pressure bolt loaded until rum pushing through is cut through on both sides of the bolt cutting edge only to such an extent becomes that the connection of the parts lying on both sides of the bolt cutting edge of the specimen is not disturbed with the other parts of the specimen and sliding of the threads from the pressure pin, which on two opposite edges only the width which prevented incisions by arranging laterally moving knives will.