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Refereed Journal Publications, 16 Nos. (Only SCI/SCIE):
[1] Ricardo Branco, Z Marciniak, Pedro Prates, Bimal Das, RF Martins, C Malça. Fatigue behaviour and life prediction of L-PBF-processed maraging steel under variable-amplitude loading. Archives of Civil and Mechanical Engineering. 2026 Mar;26(2):32.(SCI, IF- 4.4, Q1) 👉
[2] Kartik Nair, Vishvesh Badheka, Kishan Fuse, SS Manoharan, Ravi Kumar Varma, Bimal Das. Fatigue Behavior of Additively Manufactured AlSi10Mg Alloy Under Extreme Environment for Space Applications. Journal of Materials Engineering and Performance. 2025 Nov 21:1-1. (SCI, IF- 2.0, Q2) 👉
[3] Saroj K Basantia, Sirish Chandrakar, Bimal Das, Binod Dhakal, Nilesh P Gurao. Effect of Surface Mechanical Grinding Treatment on the Strain‐Amplitude‐Dependent Fatigue Response of CP‐Ti. Advanced Engineering Materials.2026 Jan. (SCI, IF- 3.3, Q1) 👉
[4] Annadasankar Mishra, Jogin Dhebar, Bimal Das, Sanket S Patel, Akhand Rai A. Leak detection in pipelines based on acoustic emission and growing neural gas network utilizing unlabeled healthy condition data. Flow Measurement and Instrumentation. 2025 Mar 1;102:102816. (SCI, IF- 2.0, Q2) 👉
[5] Bimal Das, Akhilendra Singh, Akhand Rai A, Ricardo Branco. Synergistic effect of fatigue and hydrogen-induced damage under asymmetric loading of TRIP steel. Engineering Failure Analysis. 2024 Jul 1;161:108352. (SCI, IF- 5.7, Q1) 👉
[6] Anurag Kumar, Bimal Das, Akhilendra Singh, Mayank Tiwari. A comprehensive methodology to estimate the fatigue life of S-shaped integral squeeze film damper. Engineering Failure Analysis. 2024 Jul 1;161:108316. (SCI, IF- 5.7, Q1) 👉
[7] Bimal Das, Akhilendra Singh, Puja Ghosal, Ashish Priya, R. Rohith Kumar Reddy. An experimental and numerical study on strain controlled fatigue response of TRIP steel under influence of hydrogen. International Journal of Fatigue. 2023 ; 172. 107635. (SCI, IF- 6.8,Q1) 👉
[8] Hitarth A Maharaja, Bimal Das, Amit Singh and Sushil Mishra. Comparative assessment of strain-controlled fatigue performance of SS 316L at room and low temperatures. International Journal of Fatigue. 2022 ; 166. 107251. (SCI, IF- 6.8,Q1) 👉
[9] Bimal Das, Akhilendra Singh, Surajit Kumar Paul, kanwer Singh Arora, Mahadev Shome. The effect of thickness variation and pre-strain on the cornering fatigue life prediction of a DP600 steel wheel disc. International Journal of Fatigue. 2020; 139. DOI:10.1016/ijfatigue.2020.105799. (SCI, IF- 6.8,Q1) 👉
[10] Bimal Das, Akhilendra Singh, Surajit Kumar Paul, kanwer Singh Arora, Mahadev Shome. Correlation between fatigue response of preformed bend DP600 steel specimen and wheel disc. Fatigue and Fracture of Engineering materials and Structures. 2020;43: 2842–2853. DOI: 10.1111/ffe.13299. (SCI, IF- 3.3, Q1) 👉
[11] Bimal Das, Akhilendra Singh, Surajit Kumar Paul. Low cycle fatigue performance of DP600 steel under various pre-straining paths. International Journal of Fatigue. 2020;132. (SCI, IF- 6.8, Q1) 👉
[12] Bimal Das, Akhilendra Singh, Kanwer Singh Arora KS, Mahadev Shome, Surajit Kumar Paul. Influence of pre-straining path on high cycle fatigue performance of DP 600 steel. International Journal of Fatigue. 2019;126: 369–380. (SCI, IF- 6.8, Q1) 👉
[13] Puja Ghosal, Surajit Kumar Paul, Bimal Das, Manaswini Chinara, Kanwer Singh Arora. Notch fatigue performance of DP600 steel under different pre-straining paths. Theoretical and Applied Fracture Mechanics. 2020;108. (SCI, IF- 5.6, Q1) 👉
[14] Bimal Das, Akhilendra Singh. Influence of hydrogen on the low cycle fatigue performance of P91 steel. International Journal of Hydrogen Energy. 2020; 45(11):7151-7168. (SCI, IF- 8.3, Q1) 👉
[15] Bimal Das, Akhilendra Singh. Understanding strain controlled low cycle fatigue response of P91 steel through experiment and cyclic plasticity modeling. Fusion Engineering and Design. 2019;138:125-133. (SCI, IF- 2.0, Q1) 👉
[16] Pankaj Kumar, Bimal Das, Akhilendra Singh. Evaluation of Uniaxial Ratcheting and Post Ratcheting Tensile Performance of Aluminum Alloy 5754. IMech. E. Part C: Journal of Mechanical Engineering Science. 2019; 233: 5033-5047. (SCI, IF- 1.7, Q2) 👉
Book Chapter
Bimal Das, Akhilendra Singh. Low Cycle Fatigue Life Estimation of P91 Steel by Strain Energy-Based Approach. 2019. Mechanical Fatigue of metals. Springer. 👉
Conference Proceedings
Devyanshi Patel, Bimal Das. High Cycle Fatigue Life Prediction of Dual-Phase Steel Under Strain Path Changes: A Machine Learning Approach. International Mechanical Engineering Congress and Exposition-India 2025 Sep 10 (Vol. 89176, p. V005T10A047). American Society of Mechanical Engineers. 👉
Krishnamurti Singh, Ashu Yadav, Bimal Das. Fretting Wear Evolution of Partially Compatible Materials. IEEE Conference Proceedings. 2024.
Bimal Das, Akhilendra Singh. Cyclic mean stress relaxation behavior of P91 steel: Experiments and constitutive modeling. Procedia Structural Integrity. 2019;14:619-626.
Bimal Das, Md Abu Bakkar, Niloy Khutia, Debdulal Das. Low Cycle Fatigue Performance Evaluation of TMT rebar. Materials Today Proceedings. 2017;4:2554-2563.