|
V. А. Sharapova
USING THE TRIP EFFECT TO INCREASE ABRASIVE WEAR RESISTANCE OF STEEL
DOI: 10.17804/2410-9908.2024.5.030-045 The effect of high-temperature quenching on the abrasive wear resistance of iron-carbon-chromium and iron-carbon-manganese steels (1–1.2% carbon and 18% chromium or manganese, 100Kh18 and 120G18) is studied in comparison with an iron-nitrogen-chromium steel (0Kh18A1.2) and on the friction hardening ability of these steels. The study reveals an increase in abrasive wear resistance due to the micro-TRIP effect after high-temperature quenching. It is shown that the wear resistance of the 100Kh18 steel with a metastable austenite structure and carbides after quenching from 1200 °C (ε = 3.2) is three times as high as the wear resistance of the 120G18 stable austenitic steel (ε = 1.1). The studied steels quenched from 1000–1200 °C have abrasive wear resistance exceeding the wear resistance of the 110G13L steel by 20%.
Acknowledgments: The study was supported by a grant under the Priority-2030 program for strategic academic leadership. Keywords: TRIP effect, abrasive wear resistance, high-temperature hardening
Article reference
Sharapova V. А. Using the Trip Effect to Increase Abrasive Wear Resistance of Steel // Diagnostics, Resource and Mechanics of materials and structures. -
2024. - Iss. 5. - P. 30-45. -
DOI: 10.17804/2410-9908.2024.5.030-045. -
URL: http://eng.dream-journal.org/issues/2024-5/2024-5_473.html
(accessed: 11/21/2024).
|
|
