SU1004814A1 - Material heat stability determination method - Google Patents

Description

(S) METHOD FOR DETERMINING THE HEAT RESISTANCE OF MATERIALS

Claims (2)

The invention relates to a testing technique and can be used in determining the heat resistance of materials. A known method for determining the heat resistance of materials is that the cantilevered specimen is loaded, continuously heated at the point of its fixation, its heating temperature and strength properties are recorded, which change is judged by the heat resistance of the material 11. The disadvantage of this method is the low accuracy of heat resistance determination due to uneven temperature distribution in the sample. The closest to the proposed technical essence and the achieved result is a method for determining the heat resistance of materials, which consists in the fact that a cantilever specimen is heated in the place of its fixation, excites resonant oscillations in it not lower than at the second harmonic, is loaded with a static bend in the node oscillations and record the temperature of heating, determine the dependence of the resonant frequency of oscillations of the loaded sample on the temperature and temperature, corresponding to the resonant frequency in the instant onset of accelerated creep, the heat resistance of the material 2 is determined. The disadvantage of this method is that it does not provide the ability to test thermosets, since these materials do not have a characteristic resonant frequency corresponding to the temperature of heat resistance of the material. 11 of the invention is the ability to test thermosets. This goal is achieved by the fact that, according to the method for determining the heat resistance of materials, which implies that a consolidated fixed sample is heated at the place of its fixation, resonant oscillations are excited in it not lower than the second harmonic, they are loaded with CTaTMt-tecKHM bend in uzpe fluctuations and record the temperature of heating, additionally determine the mechanical losses during sample oscillations and their dependence on temperature and temperature, corresponding to the beginning of a sharp change in this dependence, determine ostoykost material. The method is implemented as follows: A cantilever-mounted sample is heated at the place of its fixation, excites resonant oscillations in it, for example, using a vibrator than with the second harmonic, and loads 3 oscillations with static bending. During the test, the temperature of the sample is continuously recorded at the place of its fixation, and, depending on the temperature, and the change in mechanical losses during oscillation - ir:, sample and mx are temperature dependent. The evaluation of mechanical losses is performed according to tangent noTiph angle. With a gradual heating of samples of thermotoplastic materials up to a certain temperature, a monotonic increase in mechanical losses occurs. When heated above this temperature, thermal decomposition of the material occurs, accompanied with a sharp increase in mechanical losses, I-ITO is characterized by a sharp change in the loss tangent. The temperature corresponding to the beginning of the abrupt change in the indicated dependence is determined from the dependence of the change in the angle of loss angle on the temperature of the test, and the heat resistance of the material is judged from this temperature. The method allows to determine the heat resistance of thermosets, which do not have a characteristic resonant frequency corresponding to the temperature of the heat resistance of the material. Claim Method The method for determining the heat resistance of materials, which consists in the fact that KOHCOJVnh c fixed — the sample is heated at its location where it is fixed, excites resonant oscillations of it not on the second harmonic, is loaded with static bending at the node of cursors and records the heating temperature, tl and h and so u i and so. In order to enable testing of thermo-plastics, the mechanical losses of the specimen's vibrations and their dependence on temperature and temperature, corresponding to the beginning of an abrupt change in this dependence, are determined by the heat resistance of the material. Sources of information taken into account in the examination 1. The author's certificate of the USSR 110021, cl. G 01 N 3/18, 1956. 2. USSR author's certificate If, cl. G 01 N C / oO, 1978 (prototype).