SU873032A1 - Method of preparing sample for investigation on torsion pendulum - Google Patents

Description

(54) METHOD FOR PREPARING A SAMPLE FOR RESEARCH ON A TORQUE PENDULUM

Claims (2)

The invention relates to a technique for studying the properties of materials at different temperatures and can be used to study the properties of flowable polymers by the dynamic mechanical method on a torsion pan. Devices are known in which the damping of mechanical vibrations in till materials is used to study properties. However, the method of preparing the specimen for testing on this device, if it is tested in flowable materials, is very difficult fll. The closest in technical essence to the present invention is a method of preparing samples for study on a torsion tattern, consisting in shaving the material under study into a bundle of fibers in order to maintain the shape of the flowable materials in the studies followed by testing according to generally accepted methods f23 . However, this method is not applicable to the study of materials that considerably soften and dilute during the course of the experiment, since they, under the action of, the forces of gravity, slip away from the rigid base. In addition, applying the material under study, for example, sticky, flexible rubber to a rigid base, is a complicated operation, sometimes practically impracticable. The use of polymer solutions for this purpose significantly complicates the preparation of samples and the conduct of the experiment, changing the structure of the polymer. The purpose of the invention is the refinement of the preparation and the process of studying the sample. The goal is achieved by the method of preparing a sample for research on a torsion pan by applying it on a solid basis & a flexible film, such as metal foil, is taken as the basis, the material under test is wrapped in it, and the resulting sample is fixed in the measuring unit torsion tandem Example 1. A sample of an unvulcanized thermoplastic elastomer DST-30 is prepared for testing using a torsion pattern. The material is pressed at 160 ° C for 10 minutes. to shape, then cut a rectangular sample with dimensions of 2x10x90 mm which is wrapped in a single layer with a lay of 0.1 mm thick aluminum foil along a long axis and loaded into the clamps of a torsion arch. Studies in the usual manner carried out in the range from -180 to + 200 ° C. Example 2 A SKI Z. rubber syringe is inserted in the form of a round cord with a diameter of 3 mm and a length of 90 mm, wrapped in 10 layers of condenser aluminum foil 0.02 mm thick and clamped in the measuring cell of the torsion tube. Studies according to the usual method are carried out in the interval from 180 to + 260 ° C. The application of the proposed method allows one to be free from solvents, preparation of solutions, selection of a bundle of fibers, impregnation, drying, i.e. the preparation of the experiment is greatly simplified. In addition, the proposed method allows one to regulate the structure of the material under study by changing the conditions for its preparation, for example, by pressing, extrusion, vulcanization, while the known method gives the structure of rubbers from a solution, and the fact that . The gang cannot be carried out and, therefore, by a known method they cannot be tested. The proposed method can be used in studies of any materials that soften when the temperature rises during the experiment: low molecular weight hydrocarbons, such as paraffin, stearin, plastics, glass, metals, but in each case it is necessary to use a film that does not break at experimental temperatures. For example, iron ri glass studies. The proposed method is simple, readily available and practically does not require modification of existing instruments and methods. DETAILED DESCRIPTION OF THE INVENTION A method for preparing a sample for research on a torsion pan is applied by applying it on a solid substrate, so that, in order to simplify the preparation and process of examining a sample, a flexible film, such as metal foil, is wrapped in the substrate, and fix the resulting sample to the measuring unit of the torsion torsion. Sources of information taken into account in the examination 1. Yanovsky Yu. G. Dynamic methods of testing polymers, journal of the factory laboratory, so 32, № В, p. 954-961,1966. 2. Malkin A. Ya., Et al. Methods for measuring the mechanical properties of polymers M. Chem., 1978, pp. 185-187 (prototype).