The causes of the destruction of the crane Gottwald НМК 170 EG (63 t) which happened in 2011 on the territory of “Novorossiysk Commercial Sea Port” are analyzed. The structural and engineering recommendations on the platform bearing capacity restoration are developed. These proposals are based on the failure analysis of the weld joints of the prow rotating platform, and on the 3D numerical simulation of its stress state. It is shown that an abrupt change in the welded assembly compliance in the area of the stiffening ribs supporting the platform bedplate causes a local increase in stress and predetermines the fatigue-crack nucleation. The results of the crack nucleation regions simulation are in good agreement with the crane diagnostic results. It is shown that the stress localization in the welded node joints with non-uniform compliance of the connected components is a common pattern. It must be taken into account in both the designing and the development of the repair tech-nique. A specific case suggests extra pads to provide a smooth change in the welded assembly compliance in the area of the platform stiffening rib under the weld assembly repair.
stress-strain state of extended fillet welds, 3D simulation, finite element method, elastic compliance effect
Введение. За последние годы во многих ключевых отраслях России: транспортной, топливно-энергетической, аграрно-промышленной, нефтегазодобывающей и др. заметно увеличился износ основных производственных фондов.
Парк грузоподъемных машин в нашей стране достаточно сильно изношен. В таблице 1 приведены данные о количестве грузоподъемных кранов, отработавших нормативный срок службы [1].
1. Godovoy otchet o deyatel´nosti federal´noy sluzhby po ekologicheskomu, tekhnologicheskomu i atomnomu nadzoru v 2011 godu. [Annual report on the activities of the Federal Service for Ecological, Techno-logical and Nuclear Supervision in 2011.] Federal´naya sluzhba po ekologicheskomu, tekhnologicheskomu i atomnomu nadzoru; Nauchno-tekhnicheskiy tsentr issledovaniy problem promyshlennoy bezopasnosti. [Federal Service for Ecological, Technological and Nuclear Supervision; Scientific and Technical Research Center of In-dustrial Safety.] Moscow, 2012, 536 p. (in Russian).
2. Braude, V. I. Spravochnik po kranam : v 2 t. [Handbook of cranes in 2 volumes.] Leningrad : Mashi-nostroenie, 1988, vol. 1, 536 p. (in Russian).
3. Zaklyuchenie № RNS-33-0138-GPM-12 tekhnicheskoy ekspertizy po voprosam o prichinakh i kha-raktere razrusheniya portovogo mobil´nogo krana NMK 170 EG, zav. № 12818900, reg. № 511023, inv. № 93 pri avarii, proizoshedshey 24.12.2011 na territorii OAO «Novorossiyskiy morskoy torgovyy port», sformuliro-vannykh v pis´me № 2441-45 ot 27.01.2012 OAO «Novorossiyskiy morskoy torgovyy port» i pis´me № 538/08-07 ot 06.02.2012 Severo-Kavkazskogo upravleniya Rostekhnadzora. [Technical expertise conclusion no. RNS-33-0138-GPM-12 on the causes and nature of the destruction of the port mobile crane NMK 170 EG, serial no. 12818900, reg. no. 511023, tag no. 93, at the accident which happened on the territory of JSC "Novorossiysk Commercial Sea Port", contained in the letter no. 2441-45 of 27.01.2012, JSC "Novorossiysk Commercial Sea Port", and in the letter no. 538 / 08-07 of 06.02.2012, North -Caucasian Rostechnadzor management.] Engi-neering Consultation Center “Mysl” LLC, NSTU, Novocherkassk, 2012, 15 p. (in Russian).
4. Chigarev, А. V., Kravchuk, A. S., Smalyuk, A. F. ANSYS dlya inzhenerov : sprav. posob. [ANSYS for engineers: reference book.] Sankt-Peterburg : Piter, 2004, 512 p. (in Russian).
5. Lukyanov, V. F., Rogozin, D. V., Mikhaylov, V. V. Vliyanie neodinakovoy podatlivosti svarnykh shvov na napryazhenno-deformirovannoe sostoyanie v nakhlestochnom soedinenii. [Effect of uneven compliance of welds on the stress-strain state in the overlap joint.] Vestnik of DSTU, 1999, no. 1, pp. 48-51 (in Russian).
6. Lukyanov, V. F., Rogozin, D. V. Vliyanie uprugoy podatlivosti soedinyaemykh elementov na raspre-delenie usiliy v preryvistykh flangovykh shvakh. [Effect of elastic compliance of connected elements on the dis-tribution of efforts in intermittent flank seams.] Vestnik of DSTU, 1999, no. 3, pp. 28-35 (in Russian).
7. Lyudmirskiy, Y. G., Mikhailov, V. V. Issledovanie uprugoy podatlivosti soedineniya shveller - plasti-na metodom konechnykh elementov. [Study on elastic compliance of the channel - plate connection by finite element method.] Svarka XXI vek : sb. statey. [Welding XXI century: collected works.] Lipetsk, 2004, vol. 2, pp. 636-642 (in Russian).
8. Evrokod 3. Proektirovanie stal´nykh konstruktsiy. Chast´ 1-8. Raschet soedineniy : tekhnicheskiy ko-deks ustanovivsheysya praktiki TKP EN 1993-1-8. [Eurocode 3. Design of steel structures. Part 1-8. Calculation of connections: technical code of common practice TKP EN 1993-1-8.] Ministry of Architecture and Construction of Belarus. Minsk, 2010, 133 p. (in Russian).
9. Lukjanov, V. F., Korobtsov, A. S. Imitative Simulation of Welded Joint Fracture Under Low-Cycle Loading. Int. J. Pres. Ves. & Piping, 1991, vol. 47, no. 2, pp. 193-206.
10. Varukha, Е. N., Bryushko, V. I. Ostatochnyy resurs metalla trub i svarnykh soedineniy gazoprovo-da, prorabotavshego 37 let. [Residual life of metal pipes and welded joints of the pipeline that has worked for 37 years.] Svarka v Sibiri, 2004, no. 2, pp. 70-73 (in Russian).
11. Lukyanov, V. F. Tekhnologicheskaya nasledstvennost´ kak faktor nadezhnosti svarnykh soedineniy. [Technological heredity as a factor of welded joints reliability.] Vestnik of DSTU, 2005, vol. 5, no. 3, pp. 13-18 (in Russian).
12. Dyurgerov, N. G., Lukyanov, V. F., Pavlov, A. P. Remont metodom dopolnitel´nykh detaley. Praktika remonta, vosstanovleniya i modernizatsii. [Repair by method of optional parts. Practice of repair, res-toration, and modernization.] Repair, Reconditioning, Modernization. 2007, no. 1, pp. 19-21 (in Russian).