Journal
METALLURGIST
Volume 65, Issue 9-10, Pages 986-994Publisher
SPRINGER
DOI: 10.1007/s11015-022-01239-9
Keywords
dissimilar steels; phase transformation; characteristics; surfacing; microstructure; HAZ; high-carbon steel; chromium-nickel steel; railway crossovers
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This study investigated the structural characteristics and mechanical properties of surfacing layers prepared by pulsed arc surfacing with austenitic wire A7-1G on high-carbon steel e76. The results showed that pulsed arc melting could form various austenitic and pearlitic steel compounds, and a fine ferrite-pearlite mixture with a minimum ferrite grain size of 1 μm was present in the heat-affected zone of the carbon steel. These characteristics of the heat-affected zone structure were favorable for providing the required crack resistance indices.
Results are provided for structural studies and mechanical property evaluation of surfacing layers prepared by pulsed arc surfacing with austenitic wire A7-1G on high-carbon steel e76 during production of railway crossovers. Welding and surfacing of various materials, especially if one of them has a high carbon content, is an important practical task connected with obtaining an effective surfacing layer structure and heat-affected zone. Use of light and scanning electron microscopy methods shows that pulsed arc melting makes it possible to form various austenitic and pearlitic steel compounds, and within the heat-affected zone in carbon steel a fine ferrite-pearlite mixture with a minimum ferrite grain size of 1 mu m is present. Features of the ferrite formed in this case are its irregular shape, curvature, interrupted nature, and defects in the form of discontinuities. Part of the cementite undergoes transformation into granular form. These features of the heat affected zone structure are favorable from the point of view of providing the crack resistance indices required for the joints obtained. It is demonstrated that with tests by a three-point bending scheme for crossover elements the failure load increases by 15% compared with welded joints of the same steels.
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