Global Nuclear Safety
National Research Nuclear University "MEPhI"
online version: ISSN 2499-9733
print version: ISSN 2305-414Х
2019-1(30)
Design, manufacturing and commissioning of nuclear industry equipment
| Article Name | 10.26583/GNS-2019-01-05Monitoring and Regulation System of Penetration Depth at Argon-Arc Welding of Important Products on Welding Pool Oscillation |
|---|---|
| Authors | Eh.A. Gladkov*1, N.A. Simakova**2, R.A. Perkovskij*3, T.V. Brodyagina***4 |
| Address | * Bauman Moscow State Technical University (MSTU), 2nd Baumanskaya St., 5, Moscow, Russia, 105005 1 ORCID iD: 0000-0101-6610-8725 WoS Researcher ID: J-6791-2017 e-mail: 123777@bk.ru 3ORCID iD: 0000-0002-7512-4687 WoS Researcher ID: J-7170-2017 e-mail: proman@bmstu.ru **Volgodonsk Engineering Technical Institute the branch of National Research Nuclear University “MEPhI”, Lenin St., 73/94, Volgodonsk, Rostov region, Russia, 347360 2ORCID iD: 0000-0002-8599-6008 WoS Researcher ID: Y-3656-2018 e-mail: simnataalex@gmail.com *** Certification Center of Urban Farming (TSGH), Perevedenovsky lane, 13 building 15, Moscow, Russia, 105082 4ORCID iD: 0000-0002-8609-3687 WoS Researcher ID: P-2357-20 e-mail: ac-mosgaz@yandex.ru |
| Abstract | The article presents the results of studies carried out to build an automatic system for regulating the depth of penetration during argon-arc welding using signals of welding pool oscillations. Methods of control and algorithms for controlling the process of argon-arc welding of critical structures by welding pool oscillations and extraction of the oscillation spectrum are proposed. |
| Keywords | welding pool, the amount of penetration, optical sensor, welding quality |
| Language | Russian |
| References | [1] Gladkov E.А., Guslistov I.A., Sas A.V. Opisanie dinamicheskih processov v svarochnoj vanne pri variacii dejstvuyushchej na gruzki [Description of Dynamic Processes in the Weld Pool with Variations in the Current Load]. Svarochnoe proizvodstvo [Welding production]. 1974. № 4. P. 11-13 (in Russian). [2] Ishanin G.G., Pankov Eh.D., Andreev A.L. Istochniki i priemniki izlucheniya [Radiation Sources and Receivers]. SPb Politekhnika [St. Petersburg: Polytechnic]. 1991 (in Russian). [3] Guslistov I.A., Gladkov Eh.A, Krichevskij E.M. Ustrojstvo dlya kontrolya velichiny proplavleniya pri svarke nerzhaveyushchih trub na stanah ADS [A Device for Controlling the Magnitude of Penetration in Welding of Stainless Steel Tubes at Mills ADS]. Svarochnoe proizvodstvo [Welding Production]. 1973. №2. P. 46-47 (in Russian). [4] Shirkovskij N.A., Gladkov Eh.A., Kiselev O.N. Adaptivnaya ASU processa argonodugovoj svarki trub [Adaptive Automatic Control System of the Process Of Argon-Arc Welding Pipe]. Svarochnoe proizvodstvo [Welding Production]. 1986. №11. P. 1-3 (in Russian). [5] Gladkov Eh.A., Shirkovskij, Kiselev O.N. i dr. Kompleks tekhnicheskih sredstv i ocenka ehffektivnosti funkcionirovaniya N.A. ASU processa argonodugovoj svarki trub [Set of Technical Tools and Evaluation of Efficiency of Functioning of Automated Control System of the Process of Argon-Arc Welding Pipe]. Svarochnoe proizvodstvo [Welding Production]. 1989. №11 P. 3-5 (in Russian). [6] Gladkov Eh.A., Perkovskij R.A., Kiselev O.N. Datchik velichiny proplavleniya pri svarke trubchatyh izdelij [Sensor of Penetration Value at Welding of Tubular Products]. Perspektivnye puti razvitiya svarki i kontrolya Svarka i control 2001. Tez dokl Vseros nauch-tekhn konf [Perspective Ways of Development of Welding and Control. Welding and Control 2001 : abstracts of All-Russian Science Techical Conference]. Voronezh. 2001. P. 34 (in Russian). [7] Smilyanskij G.L., Amlinskij L.Z., Baranov V.Ya. Spravochnik proektirovshchika ASU TP [Handbook of the APCS designer]. Pod red. G. L. Smilyanskogo. M: Mashinostroenie. 1983. P. 527 (in Russian). [8] Vinogradov V.A., Romanenkov E.I. Issledovanie opticheskogo izlucheniya svarochnoj dugi v argone [Investigation of Optical Radiation of Welding Arc in Argon]. Voprosy atomnoj nauki i tekhniki. Ser Svarochnoe proizvodstvo [Issues of Nuclear Science And Technology. Welding Production]. 1977. Vol. №3. P. 184-190 (in Russian). [9] Vinogradov V.A. Vozmozhnost kontrolya i regulirovaniya ehnergo vlozheniya v izdelie pri svarke koncentrirovannymi istochnikami nagreva s pomoshchyu opticheskih metodov [The Ability to Control and Regulate the Energy Input into the Product When Welding with Concentrated Heating Sources Using Optical Methods]. Voprosy atomnoj nauki i tekhniki. Ser Svarochnoe proizvodstvo [Issues of Nuclear Science And Technology. Welding Production]. 1982. Vol. 3. P. 91-94 (in Russian). [10] Poskachej A.A., Chubarov E.P. Optiko-ehlektronnye sistemy izmereniya temperatury [Optical-Electronic System for Measuring Temperature]. 2-e izd. Pererab. i dop. Moskva: Energoatomizdat [Moscow: Energoatomizdat]. 1988. P. 248 (in Russian). [11] Watkins P.V.C., Collier R., Harvey D. Pulsed arc TIG Welding. Welding Revie International. 1993. Vol. 62. N 2. P. 29-32. [12] Chin W., Chin B. Monitoring joint penetration using infrared sensing techniques. Welding Journal. 1990. Vol. 69. N 4. P. 181-185. [13] Salter R., Deam R. A practical front face penetration control system for TIG welding. Automated and Robotic Welding. 1987 Vol. 60. N 11. P. 145-156. |
| Papers | 47 - 58 |
| URL Article | URL Article |
| Open Article |