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Zi-Yi Lai, Xuan-Wei Lei, Zhen-Ming Zhang, Yu Zhang & Chao-Bin Lai. (2023) Improvements in welding continuous cooling transformation diagram of high-strength low-alloy steel weld. Materials Science and Technology 39:17, pages 2690-2698.
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A. R. Chintha. (2019) Metallurgical aspects of steels designed to resist abrasion, and impact-abrasion wear. Materials Science and Technology 35:10, pages 1133-1148.
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X. Y. Long, F. C. Zhang, J. Kang, Z. N. Yang, D. D. Wu, K. M. Wu & G. H. Zhang. (2017) Study on carbide-bearing and carbide-free bainitic steels and their wear resistance. Materials Science and Technology 33:5, pages 615-622.
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M. M. Wang, B. Lv, Z. N. Yang & F. C. Zhang. (2016) Wear resistance of bainite steels that contain aluminium. Materials Science and Technology 32:4, pages 282-290.
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Articles from other publishers (28)
Eider Del Molino, Maribel Arribas, Iñaki Pérez, Félix Valdavida & Javier Jesús González. (2023) Microstructure and Wear Resistance in Medium and High C Steels Treated by Quenching and Partitioning. steel research international 94:8.
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Rajan Kumar, Ravi Kumar Dwivedi, Ranjeet Kumar Arya, Pankaj Sonia, Anil Singh Yadav, Kuldeep K. Saxena, M. Ijaz Khan & Sana Ben Moussa. (2023) Current development of carbide free bainitic and retained austenite on wear resistance in high silicon steel. Journal of Materials Research and Technology 24, pages 9171-9202.
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José Sergio Pacheco-Cedeño, José de Jesús Cruz-Rivera, Ariosto Medina Flores, Francisco Vapeani Guerra López, Manuel Vite-Torres, J L Bernal & Pedro Garnica-González. (2022) Abrasive wear behavior in dry condition of a plasticity-induced transformation steel. Surface Topography: Metrology and Properties 10:3, pages 034005.
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Crossref
Mingming Shen, Zhenlong Zhu, Shaobo Li, Cunhong Yin, Jing Yang & Ansi Zhang. (2022) Deep learning assisted prediction of retained austenite in the carburized layer for evaluating the wear resistance of mild steel. Journal of Materials Research and Technology.
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Zhenlong Zhu, Yilong Liang, Cunhong Yin, Xianli Ren, Ming Yang & Jianghe Zou. (2022) Influence of friction-induced retained austenite transformation to martensite on the wear properties of a carburized layer of 23CrNi3MoA steel. Applied Surface Science 595, pages 153548.
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Kritika Singh & Aparna Singh. (2022) Effect of austempering temperature on corrosion evolution during immersion of high carbon nano-structured bainitic steel in aqueous chloride environment. Materialia 21, pages 101282.
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Tianyu Zhang, Jian Wang, Zhizhou Pan & Qing Tao. (2021) Effect of Carbon Partition and Precipitation on Wear Resistance of Carburized Layer in Heavy-Duty Gear. Materials 14:22, pages 6958.
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Kritika Singh, Sudharm Rathore & Aparna Singh. (2021) Evolution of sub-surface microstructure under linear reciprocating wear of nanostructured bainitic steel. Materials Characterization 180, pages 111407.
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Fanmin Shang, Suiyuan Chen, Lin Zhou, Wuming Jia, Tong Cui, Jing Liang, Changsheng Liu & Mei Wang. (2021) Effect of laser energy volume density on wear resistance and corrosion resistance of 30Cr15MoY alloy steel coating prepared by laser direct metal deposition. Surface and Coatings Technology 421, pages 127382.
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Quanshun Luo, Haijuan Mei, Matthew Kitchen, Yubi Gao & Leon Bowen. (2021) Effect of Short-Term Low-Temperature Austempering on the Microstructure and Abrasive Wear of Medium-Carbon Low-Alloy Steel. Metals and Materials International 27:9, pages 3115-3131.
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Xincheng Yan, Jun Hu, Hao Yu, Chenchong Wang & Wei Xu. (2021) Unraveling the significant role of retained austenite on the dry sliding wear behavior of medium manganese steel. Wear 476, pages 203745.
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Quanshun Luo, Jianbin Li, Qintai Yan, Wenbo Li, Yubi Gao, Matthew Kitchen, Leon Bowen, Nicholas Farmilo & Yutian Ding. (2021) Sliding wear of medium-carbon bainitic/martensitic/austenitic steel treated by short-term low-temperature austempering. Wear 476, pages 203732.
Crossref
Crossref
Jian-ping Lai, Jia-xin Yu & Jiong Wang. (2020) Effect of quenching-partitioning treatment on the microstructure, mechanical and abrasive properties of high carbon steel. International Journal of Minerals, Metallurgy and Materials 28:4, pages 676-687.
Crossref
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Jiapeng Liu, Yingqi Li, Yinhua Zhang, Yue Hu, Lubing Shi, Haohao Ding, Wenjian Wang, Fengshou Liu, Shaobo Zhou & Tong Shi. (2020) Dry Rolling/Sliding Wear of Bainitic Rail Steels under Different Contact Stresses and Slip Ratios. Materials 13:20, pages 4678.
Crossref
Crossref
Kritika Singh & Aparna Singh. (2020) Comparative electrochemical impedance spectroscopy study in chloride environment of nano-structured bainitic steels prepared by austempering at varied temperatures. Engineering Research Express 2:3, pages 035040.
Crossref
Crossref
Gourab Saha, Kati Valtonen, Ari Saastamoinen, Pasi Peura & Veli-Tapani Kuokkala. (2020) Impact-abrasive and abrasive wear behavior of low carbon steels with a range of hardness-toughness properties. Wear 450-451, pages 203263.
Crossref
Crossref
Pedro Gabriel Bonella de Oliveira, Ricardo Tadeu Junior Aureliano, Luiz Carlos Casteletti, André Itman Filho, Amadeu Lombardi Neto & George Edward Totten. (2020) Effect of Low-Temperature Austempering and Quenching and Partitioning Treatments on Adhesive Wear Resistance of High-Silicon Multiphase Steels. Journal of Materials Engineering and Performance 29:6, pages 3542-3550.
Crossref
Crossref
V. I. Zurnadzhy, V. G. Efremenko, K. M. Wu, A. G. Lekatou, K. Shimizu, Yu. G. Chabak, D. S. Zotov & E. V. Dunayev. (2020) Quenching and Partitioning–Based Heat Treatment for Rolled Grinding Steel Balls. Metallurgical and Materials Transactions A 51:6, pages 3042-3053.
Crossref
Crossref
Yuda Chen, Ruiming Ren, Xiujuan Zhao, Chunhuan Chen & Rui Pan. (2020) Study on the surface microstructure evolution and wear property of bainitic rail steel under dry sliding wear. Wear 448-449, pages 203217.
Crossref
Crossref
Changle Zhang, Shouhai Li, Dawei Yi, Wenxuan Qin & Hanguang Fu. (2020) Microstructure Evolution and Wear Resistance Control of Water Quenching Si-Mn-Mo Cast Steel. Journal of Materials Engineering and Performance 29:4, pages 2460-2477.
Crossref
Crossref
Licai Fu & Lingping Zhou. (2019) Effect of applied magnetic field on wear behaviour of martensitic steel. Journal of Materials Research and Technology 8:3, pages 2880-2886.
Crossref
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V.G. Efremenko, O. Hesse, Th. Friedrich, M. Kunert, M.N. Brykov, K. Shimizu, V.I. Zurnadzhy & P. Šuchmann. (2019) Two-body abrasion resistance of high-carbon high-silicon steel: Metastable austenite vs nanostructured bainite. Wear 418-419, pages 24-35.
Crossref
Crossref
Chunping Huang, Xin Lin, Haiou Yang, Fencheng Liu & Weidong Huang. (2018) Microstructure and Tribological Properties of Laser Forming Repaired 34CrNiMo6 Steel. Materials 11:9, pages 1722.
Crossref
Crossref
Kritika Singh & Aparna Singh. (2018) Tribological response and microstructural evolution of nanostructured bainitic steel under repeated frictional sliding. Wear 410-411, pages 63-71.
Crossref
Crossref
Sk Md Hasan, Debalay Chakrabarti & Shiv Brat Singh. (2018) Dry rolling/sliding wear behaviour of pearlitic rail and newly developed carbide-free bainitic rail steels. Wear 408-409, pages 151-159.
Crossref
Crossref
H.Y. Dong, K.M. Wu, X.L. Wang, T.P. Hou & R. Yan. (2018) 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. Wear 402-403, pages 21-29.
Crossref
Crossref
Yanhui Wang, Fucheng Zhang, Zhinan Yang, Bo Lv & Chunlei Zheng. (2016) Rolling Contact Fatigue Performances of Carburized and High-C Nanostructured Bainitic Steels. Materials 9:12, pages 960.
Crossref
Crossref
Saman Ahmadi Miab, Behzad Avishan & Sasan Yazdani. (2016) Wear Resistance of Two Nanostructural Bainitic Steels with Different Amounts of Mn and Ni. Acta Metallurgica Sinica (English Letters) 29:6, pages 587-594.
Crossref
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