SU748298A1 - Method of evaluating quality of non-detachable aluminium contact connections - Google Patents

Description

The invention relates to a test technique and can be used to assess the quality of fixed aluminum contact joints. There is a method of assessing the quality of contact connections; For example, accelerated testing in the cyclical heating mode of GOST, which consists in heating the contact connections to +120 ± 10 ° C, followed by cooling to ambient temperature, not more than + 3 ° C. The magnitude of the test current is established empirically at the rate of 3-10 minutes of heating. The number of heating and cooling cycles must be at least 200 shch. The disadvantage of this method is that it requires considerable effort in assessing the quality of contact connections, without revealing the entire process of changing the parameters to be determined (temperature, resistance). The closest in technical essence to the present invention is a method for assessing the quality of one-piece aluminum contact joints including cyclical heating to a certain temperature by passing a cable through the test contact joint and cooling to ambient temperature, recording the parameters under study. The disadvantage of the known method. is a great testing time. The purpose of the invention is to reduce the test time. This goal is achieved by the fact that in the method of assessing the quality of one-piece aluminum contact joints including cyclic heating to a certain temperature by passing a current through the test contact and cooling to ambient temperature, recording the parameters under study, heating is performed up to 200-250 ° C by exposure to current, exceeding the rated current for the test contact of the compound by 12–13 times, for 2–5 min, and the number of cycles beat, ragot equal to 20. In FIG. 1 shows a block diagram of the device; in fig. 2 - schedule

Claims (2)

jjtiE Jiit & iii.etrilevSri ,. (Simulations of its change in resistance to temperature heating Device for implementing the method includes a low-voltage breakdown unit ANG 5000/2500 1, current adjustment unit 2, power supply unit 3, current control unit 4, attached 5 to fix the tested sample b, two-coordinate self-test recording devices The test sample 6 consists of two aluminum contact joints, the distance between which is 15 mm. After installing it in the device 5 in each contact, the test mark Thermocouple 8 is installed, three sensors 9 are installed to measure the resistance, and the thermocouples and sensors are connected to the above-mentioned devices 7. During testing of the sample, a load current exceeding the nominal 12-13 is supplied to it from the low-voltage npedbpia- tion unit 1 The magnitude of the current during the test should remain unchanged. The operating current is adjusted by block 4 through the shunt. During this time, the sample is heated to 200-250 ° C, i.e., the temperature at which the material of the sample starts to recrystallize. Heating of the sample alternates with its cooling; to ambient temperature using, for example, a ventilator. Number of cycles Heat-cooling should be no more than 20. Two-coordinate recorders 7 in the process of testing are Recording a graph of the functional compatibility of RC.C (O, where is C.sG contact junction resistance; T ° C is the heating temperature of the contact junction; , t; that is, the change in the angle o (and the resistance of the contact connection. s. make a conclusion about the performance of the test sample) For well-made contact connections, R should not increase by more than 1.5 times in relation to Jc, and the angle l (Lz izmey Lc relative to the angle t is more than ± 5%, while Yats is the resistance of a coherent compound at 200–250 ° C of the first test cycle, —in the program for the last power cycle; the angle of inclination of the graph is dependent heating temperature, first test cycle, angle of inclination for the last test cycle. For cold-welded contact connections. To, where I is the initial resistance of the test sample; - the resistance of the test sample before the last. . test cycle. Using the proposed method of assessing the quality of contact connections, it was possible to significantly reduce the time of testing. In this case, a certain economic effect was obtained by reducing the costs of testing and by speeding up the testing process necessary for assessing the quality of contact matching. Example; About fifteen types of tests were carried out to determine the quality of contact joints made in various ways; t v-b-, de number of working days spent on testing; f t - the time of the test cycle accelerated tests according to GOST 17441-72 (t 20 min); L - the number of cycles Cb 500); k - the number of types of tests (V 15). T 20.- 500 -15 S 300 days, while spending 0 | p-C-C where p is the number of specialists for testing (p 4); c is the cost per individual investor (from 4 Tfcjc, rubles per year); K - the number of types of tests (). q S 4-415 240 thousand rubles. To conduct tests using an electrothermal method to determine the quality of contact joints made in various ways, the following time is required: Ttst-b-Ka, where t is the time of the test cycle of accelerated tests using the electrothermal method (t S 10 min); B is the number of cycles (L 20); V is the number of samples in each type of test (V 25 pieces). T s 10-20-15-25 ": f 150 days. The invention method is atect ate JectBa all-in-one aluminum contact connections, on d dry cyclical heating to a certain temperature by flowing current through the test connection and cooling to ambient temperature registering the parameters under study, that is, t and h. a and y and f, in order to reduce the test time, f is heated to a temperature of 200–250 ° C by exposure to a current exceeding the rated current for the test contact connection in 12-13 times, for 2-5 minutes, and the number of cycles is chosen equal to 20. Sources of information | taken into account in the examination 1. GOST 17441-42 Contact electrical connections. Acceptance rules and test methods. 2. Germany TJt 0220 / 4.2 Prescription, ny for compression connectors in cable installations of high current, 1969 (prototype). isff FIG. 2