A comparative study on the three-body abrasive wear performance of Q&P processing and low-temperature bainitic transformation for a medium-carbon dual-phase steel

“…This behavior demonstrates that hardness was not the only parameter affecting the wear resistance and that the RA may play a key role. [ 15 ] On the other hand, when analyzing the influence of the testing linear velocity in the Q&P‐treated high‐C steel (Figure 8c), it can be seen that it is also insignificant.…”

“…the Q&P process conditions (QT, PT, Pt). [15] Although the C content of the austenite can be of greater importance than the austenite content against wear, [19] generally, higher austenite content is translated into better abrasive wear performance.…”

“…[13,14] Most of the studies related to Q&P benefits for wear resistance correspond to the mining industry. [15][16][17][18] In general, it is concluded that the RA is very beneficial for the tribological behavior (wear and friction). Consequently, in Q&P steels, apart from the direct relationship between hardness and wear resistance, the latter also depends on the microstructure and, therefore, on DOI: 10.1002/srin.202300056…”

“…Consequently, in Q&P steels, apart from the direct relationship between hardness and wear resistance, the latter also depends on the microstructure and, therefore, on the Q&P process conditions (QT, PT, Pt). [ 15 ] Although the C content of the austenite can be of greater importance than the austenite content against wear, [ 19 ] generally, higher austenite content is translated into better abrasive wear performance.…”

Microstructure and Wear Resistance in Medium and High C Steels Treated by Quenching and Partitioning

“…This behavior demonstrates that hardness was not the only parameter affecting the wear resistance and that the RA may play a key role. [ 15 ] On the other hand, when analyzing the influence of the testing linear velocity in the Q&P‐treated high‐C steel (Figure 8c), it can be seen that it is also insignificant.…”

“…the Q&P process conditions (QT, PT, Pt). [15] Although the C content of the austenite can be of greater importance than the austenite content against wear, [19] generally, higher austenite content is translated into better abrasive wear performance.…”

“…[13,14] Most of the studies related to Q&P benefits for wear resistance correspond to the mining industry. [15][16][17][18] In general, it is concluded that the RA is very beneficial for the tribological behavior (wear and friction). Consequently, in Q&P steels, apart from the direct relationship between hardness and wear resistance, the latter also depends on the microstructure and, therefore, on DOI: 10.1002/srin.202300056…”

“…Consequently, in Q&P steels, apart from the direct relationship between hardness and wear resistance, the latter also depends on the microstructure and, therefore, on the Q&P process conditions (QT, PT, Pt). [ 15 ] Although the C content of the austenite can be of greater importance than the austenite content against wear, [ 19 ] generally, higher austenite content is translated into better abrasive wear performance.…”

Microstructure and Wear Resistance in Medium and High C Steels Treated by Quenching and Partitioning

“…Retained austenite is the key structural constituent of heterogeneous constructional steels due to its higher ductility and its capability toward strain-induced martensite transformation (TRIP-effect) [11,12]. TRIP-effect results in enhancement of steel strength/ductility combination [13,14] as well as in improvement in exploitation behaviour such as abrasive/erosive wear resistance [15][16][17]. A carbon partitioning between the phase constituents is a common feature of heat processing of different steel grades (TRIP-assisted steels [1,5], QP-steels [18,19], nanobainite steels [20]).…”

Element partitioning in low-carbon Si2Mn2CrMoVNb TRIP-assisted steel in intercritical temperature range

Study on the Correlation Mechanism Between Wear Failure Behavior and the TRIP Effect of Retained Austenite in Bainitic Steel