Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear

Mamookho Elizabeth Makhatha; Kgotso Bhabha; Sergei Sherbakov; Daria Podgayskaya; Pawan Kumar; H. M. Vishwanatha

doi:10.1007/978-981-95-0063-5_29

Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear

Mamookho Elizabeth Makhatha
, Kgotso Bhabha
, Sergei Sherbakov
, Daria Podgayskaya
, Pawan Kumar^*
, H. M. Vishwanatha^*

^*Corresponding author for this work

School of Mechanical Engineering

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In the present investigation, the effect of transition depth on the work hardening was studied when a bimetallic liner plate with a chromium carbide overlay on a mild steel substrate (CCO sample) and an impact plate made of austenitic manganese steel (impact plate sample) was subjected to abrasive wear. The abrasive wear test was conducted per the standard ASTM G65 test procedure. The CCO sample showed a lesser mass loss and enhanced resistance to abrasive wear as compared to the impact plate sample. The enhanced resistance to wear was attributed to the carbide phase in the CCO sample. However, impact plate sample showed a lower mean work hardening depth compared to the CCO sample. The nonwork hardened areas of both the samples showed nonexistence of dislocations and substructures. The microstructural investigation of the work-hardened area of austenitic manganese steel impact plate showed dislocation pile-up along the grain boundaries and at the grain interior. However, the CCO sample showed the formation of slip bands in the vicinity of the work-hardened area indicating localized plastic deformation.

Original language	English
Title of host publication	Recent Advances in Materials and Manufacturing Science - Select Proceedings of ICRAM 2025
Editors	P. L. Ramkumar, Kumar Abhishek, Hemantkumar B. Mehta
Publisher	Springer Science and Business Media Deutschland GmbH
Pages	393-403
Number of pages	11
ISBN (Print)	9789819500628
DOIs	https://doi.org/10.1007/978-981-95-0063-5_29
Publication status	Published - 2025
Event	5th International Conference on Recent Advances in Mechanical Infrastructure, ICRAM 2025 - Ahmedabad, India Duration: 10-01-2025 → 12-01-2025

Publication series

Name	Lecture Notes in Mechanical Engineering
Volume	1
ISSN (Print)	2195-4356
ISSN (Electronic)	2195-4364

Conference

Conference	5th International Conference on Recent Advances in Mechanical Infrastructure, ICRAM 2025
Country/Territory	India
City	Ahmedabad
Period	10-01-25 → 12-01-25

All Science Journal Classification (ASJC) codes

Automotive Engineering
Aerospace Engineering
Mechanical Engineering
Fluid Flow and Transfer Processes

Access to Document

10.1007/978-981-95-0063-5_29

Cite this

Makhatha, M. E., Bhabha, K., Sherbakov, S., Podgayskaya, D., Kumar, P., & Vishwanatha, H. M. (2025). Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear. In P. L. Ramkumar, K. Abhishek, & H. B. Mehta (Eds.), Recent Advances in Materials and Manufacturing Science - Select Proceedings of ICRAM 2025 (pp. 393-403). (Lecture Notes in Mechanical Engineering; Vol. 1). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-981-95-0063-5_29

Makhatha, Mamookho Elizabeth ; Bhabha, Kgotso ; Sherbakov, Sergei et al. / Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear. Recent Advances in Materials and Manufacturing Science - Select Proceedings of ICRAM 2025. editor / P. L. Ramkumar ; Kumar Abhishek ; Hemantkumar B. Mehta. Springer Science and Business Media Deutschland GmbH, 2025. pp. 393-403 (Lecture Notes in Mechanical Engineering).

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title = "Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear",

abstract = "In the present investigation, the effect of transition depth on the work hardening was studied when a bimetallic liner plate with a chromium carbide overlay on a mild steel substrate (CCO sample) and an impact plate made of austenitic manganese steel (impact plate sample) was subjected to abrasive wear. The abrasive wear test was conducted per the standard ASTM G65 test procedure. The CCO sample showed a lesser mass loss and enhanced resistance to abrasive wear as compared to the impact plate sample. The enhanced resistance to wear was attributed to the carbide phase in the CCO sample. However, impact plate sample showed a lower mean work hardening depth compared to the CCO sample. The nonwork hardened areas of both the samples showed nonexistence of dislocations and substructures. The microstructural investigation of the work-hardened area of austenitic manganese steel impact plate showed dislocation pile-up along the grain boundaries and at the grain interior. However, the CCO sample showed the formation of slip bands in the vicinity of the work-hardened area indicating localized plastic deformation.",

author = "Makhatha, \{Mamookho Elizabeth\} and Kgotso Bhabha and Sergei Sherbakov and Daria Podgayskaya and Pawan Kumar and Vishwanatha, \{H. M.\}",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2025.; 5th International Conference on Recent Advances in Mechanical Infrastructure, ICRAM 2025 ; Conference date: 10-01-2025 Through 12-01-2025",

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Makhatha, ME, Bhabha, K, Sherbakov, S, Podgayskaya, D, Kumar, P & Vishwanatha, HM 2025, Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear. in PL Ramkumar, K Abhishek & HB Mehta (eds), Recent Advances in Materials and Manufacturing Science - Select Proceedings of ICRAM 2025. Lecture Notes in Mechanical Engineering, vol. 1, Springer Science and Business Media Deutschland GmbH, pp. 393-403, 5th International Conference on Recent Advances in Mechanical Infrastructure, ICRAM 2025, Ahmedabad, India, 10-01-25. https://doi.org/10.1007/978-981-95-0063-5_29

Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear. / Makhatha, Mamookho Elizabeth; Bhabha, Kgotso; Sherbakov, Sergei et al.
Recent Advances in Materials and Manufacturing Science - Select Proceedings of ICRAM 2025. ed. / P. L. Ramkumar; Kumar Abhishek; Hemantkumar B. Mehta. Springer Science and Business Media Deutschland GmbH, 2025. p. 393-403 (Lecture Notes in Mechanical Engineering; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

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T1 - Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear

AU - Makhatha, Mamookho Elizabeth

AU - Bhabha, Kgotso

AU - Sherbakov, Sergei

AU - Podgayskaya, Daria

AU - Kumar, Pawan

AU - Vishwanatha, H. M.

N1 - Publisher Copyright: © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2025.

PY - 2025

Y1 - 2025

N2 - In the present investigation, the effect of transition depth on the work hardening was studied when a bimetallic liner plate with a chromium carbide overlay on a mild steel substrate (CCO sample) and an impact plate made of austenitic manganese steel (impact plate sample) was subjected to abrasive wear. The abrasive wear test was conducted per the standard ASTM G65 test procedure. The CCO sample showed a lesser mass loss and enhanced resistance to abrasive wear as compared to the impact plate sample. The enhanced resistance to wear was attributed to the carbide phase in the CCO sample. However, impact plate sample showed a lower mean work hardening depth compared to the CCO sample. The nonwork hardened areas of both the samples showed nonexistence of dislocations and substructures. The microstructural investigation of the work-hardened area of austenitic manganese steel impact plate showed dislocation pile-up along the grain boundaries and at the grain interior. However, the CCO sample showed the formation of slip bands in the vicinity of the work-hardened area indicating localized plastic deformation.

AB - In the present investigation, the effect of transition depth on the work hardening was studied when a bimetallic liner plate with a chromium carbide overlay on a mild steel substrate (CCO sample) and an impact plate made of austenitic manganese steel (impact plate sample) was subjected to abrasive wear. The abrasive wear test was conducted per the standard ASTM G65 test procedure. The CCO sample showed a lesser mass loss and enhanced resistance to abrasive wear as compared to the impact plate sample. The enhanced resistance to wear was attributed to the carbide phase in the CCO sample. However, impact plate sample showed a lower mean work hardening depth compared to the CCO sample. The nonwork hardened areas of both the samples showed nonexistence of dislocations and substructures. The microstructural investigation of the work-hardened area of austenitic manganese steel impact plate showed dislocation pile-up along the grain boundaries and at the grain interior. However, the CCO sample showed the formation of slip bands in the vicinity of the work-hardened area indicating localized plastic deformation.

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AN - SCOPUS:105022881477

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Makhatha ME, Bhabha K, Sherbakov S, Podgayskaya D, Kumar P, Vishwanatha HM. Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear. In Ramkumar PL, Abhishek K, Mehta HB, editors, Recent Advances in Materials and Manufacturing Science - Select Proceedings of ICRAM 2025. Springer Science and Business Media Deutschland GmbH. 2025. p. 393-403. (Lecture Notes in Mechanical Engineering). doi: 10.1007/978-981-95-0063-5_29

Effect of Transition Depth on the Work Hardening of Bimetallic Liner Plate with a Chromium Carbide Overlay and an Austenitic Manganese Steel Impact Plate Subjected to Abrasive Wear

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