SU796711A1 - Method of testing unidirectional composites - Google Patents

Description

(54) METHOD FOR TESTING SINGLE-DIRECTIONAL

COMPOSITIONS

Claims (2)

The invention relates to the testing of materials, and specifically to methods for testing unidirectional composites. A known method for testing unidirectional composites, according to which a sample with sensors pasted on it is installed in a standard breaking machine, a load is applied to the sample (tension or compression), and. by. sensor readings determine the curvature of the cross sections of sample L1.J. The disadvantage of this method is low accuracy due to poor reproducibility of the experiment. Closest to the proposed technical essence and the achieved result is a method of testing unidirectional composites, presented. The matrix of the binder is reinforced with hard fibers, the ends of which protrude from the matrix, which implies that the matrix is fixed in the grip of the bursting machine; in the second grip, the ends of the reinforcing fibers are attached, to which a tensile load is applied and in the pattern isochrome In a sample in a polarized light, an area with a non-uniform stress state is determined, i.e. influence of edge effect 2. The disadvantage of this method is low accuracy, since the application of a tensile load to a sample causes the stress due to the edge effect to be applied to the ground stress state, which corresponds to stretching, and it is not always possible. The purpose of the invention is to improve the accuracy in determining the zone. This goal is achieved by the fact that in the process of testing some fibers are stretched, others compress, 3, V li. Stretching some rolocones while others creating a self-balancing load in the composite and the edge effect is released in its pure form, since the main stress state not. The method is implemented using a device whose scheme is depicted in the drawing. The device contains the lower 1 and the vertical 2 traverse, in the traverse 2 the installed screws 3 and 4 and the indicators 5 and 6. The device operates as follows. The ends of the reinforcing fibers 7 protruding from the dies 8 are secured in the cross member 1. The ends of the reinforcing fibers 9 are passed through the openings of the cross beam 1 and fixed in the cross beam 2. When the screws 3 and 4 are rotated through the threaded holes MB of the cross beam 2, they upravots their ends in the cross bar 1, moving it towards the matrix 8, while the crosshead 2 moves away from the matrix 8, thanks to which the fibers 7 are compressed and the fibers 9 are stretched out. This creates a self-balancing heating, which is measured by a dynamometer (not shown in the drawing) installed between the cross-pieces 1 and 2. The loading coaxiality is controlled by indicators 5 and 6. If the matrix 8 is made of optics of the active material, then the zone of influence of the edge effect is determined by isochromes in polarized light. In the case of an opaque matrix 8, a grid is applied to it (by mechanical or photochemical means). By the distortion of the grid, in the process of testing a zone with a non-uniform stress state (the zone of influence of the edge effect) is judged. Thus, the application of the proposed method for testing unidirectional composites, which allows creating a self-balancing load, improves the accuracy of determining the zone of influence of the edge effect. Furthermore, the method allows controlling and controlling the load created in the fibers, which leads to an increase in reproducibility an experiment. The Invention Method A method for testing unidirectional composites which are a matrix of a binder reinforced with rigid ones; the fibers whose protrusions are from the matrix, which consists in fixing the matrix, and karpyaKy are simultaneously applied to the ends of the fibers, characterized in that, in order to improve the accuracy in determining the area of the edge effect by creating a self-balancing load others, compress, Sources of information taken into account in the examination 1. Become Tarnopolsky Yu. M. and Roza A.V. Opener of the zone of influence of the edge effect in unidirectional households. - Mexai-mKa Polymers, 1965, No. 5, p. 14-16, 2. Feshch L. and Menh E. Practice of optical modeling. Per, with him ,. Novosibirsk, Science; 1966, p. 1-9 (prototype).