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- [1] TEMPERATURE PROFILES, THE SIZE OF THE HEAT-AFFECTED ZONE AND DILUTION IN ELECTROSLAG WELDINGJOURNAL OF METALS, 1980, 32 (12): : 36 - 36ROY, TDSZEKELY, JEAGER, TW
- [2] SIMULATING THE THERMAL CYCLE IN THE HEAT-AFFECTED ZONE DURING ELECTROSLAG WELDING WITH MODULATED CURRENTAUTOMATIC WELDING USSR, 1985, 38 (07): : 13 - 16SIDORUK, VSDUDKO, DAGORBENKO, NVSARZHEVSKII, VA
- [3] Study of the Thermal Cycles in the Heat-Affected Zone in Electroslag Welding of Heat-Resistant Steels.Zvaranie Bratislava, 1985, 34 (04): : 106 - 110Schwarz, Drahomir
- [4] STRUCTURE AND PROPERTIES OF HEAT-AFFECTED ZONE IN ELECTROSLAG WELDING OF A HIGH-STRENGTH TITANIUM-ALLOYAUTOMATIC WELDING USSR, 1973, 26 (09): : 18 - 22GRABIN, VFCHERKASO.NI
- [5] STRUCTURAL AND PHASE-TRANSFORMATIONS IN THE HEAT-AFFECTED ZONE IN THE ELECTROSLAG WELDING OF STEEL 12KHMAUTOMATIC WELDING USSR, 1979, 32 (12): : 14 - 16FEDOSEEV, BA
- [6] IMPROVED WELDING TECHNIQUE FOR HEAT-AFFECTED ZONE REFINEMENTWELDING AND METAL FABRICATION, 1977, 45 (09): : 549 - &ALBERRY, PJMYERS, JCHEW, B
- [7] Mathematical Model for the Electric and Temperature Fields in the Heat-Affected Zone during Electrocontact WeldingRussian Metallurgy (Metally), 2020, 2020 : 1366 - 1371V. V. BulychevG. R. LatypovaS. A. Golubina
- [8] Mathematical Model for the Electric and Temperature Fields in the Heat-Affected Zone during Electrocontact WeldingRUSSIAN METALLURGY, 2020, 2020 (12): : 1366 - 1371Bulychev, V. V.Latypova, G. R.Golubina, S. A.
- [9] STABILIZING THE TEMPERATURE-FIELD IN THE HEAT-AFFECTED ZONE DURING ARC-WELDINGAUTOMATIC WELDING USSR, 1986, 39 (07): : 9 - 12KISILEVSKII, FNBUTAKOV, GADALETSKII, AY
- [10] Austenite Grain Growth Simulation in Welding Heat-Affected ZoneTHERMEC 2018: 10TH INTERNATIONAL CONFERENCE ON PROCESSING AND MANUFACTURING OF ADVANCED MATERIALS, 2018, 941 : 620 - 626Fujiyama, NaotoSeki, Akira