Shamik Basak
Assistant professor
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Interests
Bulk and sheet metal forming processes, Plasticity for metal forming, Ductile damage models, Constitutive modeling, Formability tests, Failure prediction, Incremental sheet forming, Tailor welded blanks, Laser material processing, Finite element modeling
shamik.basak@me.iitr.ac.in
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+91-1332284975
https://scholar.google.co.kr/citations?user=UsTnymQAAAAJ&hl=en&oi=ao
Biosketch
Educational Details
Professional Background
Administrative Positions

Research
Projects
Papers
Books
Collaborations

Honours and Awards
Honors
Memberships

Teaching Engagements
Teaching Engagements

Students
Supervisions
Associate Scholars

Miscellaneous
Events
Visits
Miscellaneous
BioSketch
Educational Details
Indian Institute of Technology Kharagpur
2019
Ph.D., Mechanical Engineering
Indian Institute of Technology Kharagpur
2014
M.Tech., Manufacturing Science and Engineering
Jadavpur University
2008
B.E., Mechanical Engineering
Professional Background
Assistant Professor
01 Mar 2021 - Present
IIT Roorkee
Post Doctoral Fellow
01 Sep 2018 - 01 Feb 2021
Seoul National University, South Korea
Scientist-Engineer
29 Sep 2008 - 01 Aug 2012
Indian Space Research Organization (ISRO)
Administrative Positions
Member DAC ( Departmental Administrative Committee)
07 Jan 2022 - Present
IIT Roorkee
Member DAPC (Departmental Academic Programme Committee)
23 Aug 2022 - Present
IIT Roorkee
Teaching Engagements
Teaching Engagements
Metal Forming ( MIN-586 )
Autumn
Basic Manufacturing Processes ( MIN-102 )
Spring
Advanced manufacturing Processes ( MIN-572 )
Autumn
Metal Casting ( MIN-587 )
Spring
Students
SuperVisions
Sheet Metal Forming
26 Dec 2021 - Present
Other Supervisors: , Scholar: Amit Kumar
Miscellaneous
Visits
Seoul National University, South Korea
Post Doctoral Research
Achievements

Top ranker of the Manufacturing Science and Engineering course offered by the Department of Mechanical Engineering, IIT Kharagpur.

Fifth ranker (out of 130) in Mechanical Engineering course offered by Jadavpur University during B.E.

Qualified in Regional Mathematical Olympiad (RMO-2002) and selected for Indian National Mathematical Olympiad (INMO-2003).

Honored with 'Jugal Srimal Excellence Award'  for outstanding achievement in the field of education.

Publications

Paper published in peer-reviewed international journals

1. Basak, S., Kim, C., Jeong, W., Jung, Y.I. and, Lee, M.G., 2022. Investigation on sheared edge in trimming of advanced high strength steels and aluminum alloy sheets using ductile fracture modeling and simulations. International Journal of Mechanical Sciences, 219, p.107109. (SCI Impact Factor: 5.329)

2. Basak, S., Kim, C., Jeong, W., Jung, Y.I. and, Lee, M.G., 2022,  Analyses of shearing mechanism during shear-cutting of 980 MPa dual-phase steel sheets using ductile fracture modeling and simulation. International Journal of Material Forming, 15(1), pp.1-21. (SCI Impact Factor: 2.028)

3. Chen, S.F., Bandyopadhyay, K., Basak, S., Hwang, B., Shim, J.H., Lee, J. and Lee, M.G., 2021. Predictive integrated numerical approach for modeling spatio-temporal microstructure evolutions and grain size dependent phase transformations in steels. International Journal of Plasticity, 139, p.102952. (SCI Impact Factor: 7.081)

4. Bandyopadhyay, K., Basak, S., Choi, H., Panda, S.K. and Lee, M.G., 2021. Influence of Evolution in Anisotropy During Strain Path Change on Failure Limits of Sheet Metals. Metals and Materials International, pp.1-13. (SCI Impact Factor: 3.642)

5. Basak, S., Panda, S.K. and, Lee, M.G. Formability and fracture in deep drawing sheet metals: Extended studies for pre-strained anisotropic thin sheets. International Journal of Mechanical Sciences, 2020, 170, 105346. (SCI Impact Factor: 5.329)

6. Basak, S. and Panda, S.K., Failure strains of anisotropic thin sheet metals: experimental evaluation and theoretical prediction. International Journal of Mechanical Sciences, 2019, 151, pp.356-374. (SCI Impact Factor: 5.329)

7. Basak, S. and Panda, S.K. Necking and fracture limit analyses of different pre-strained sheet materials in polar effective plastic strain locus using Yld2000-2d yield model. Journal of Materials Processing Technology, 2019, 267, pp.289-307. (SCIE Impact Factor: 5.551)

8. Basak, S., Prasad, K.S., Sidpara, A.M. and Panda, S.K. Single point incremental forming of AA6061 thin sheet: calibration of ductile fracture models incorporating anisotropy and post forming analyses. International Journal of Material Forming, 2019, 12(4), pp.623-642. (SCIE Impact Factor: 2.028)

9. Basak, S., Katiyar, B.S., Orozco-Gonzalez, P., Baltazar-Hernandez, V.H., Arora, K.S. and Panda, S.K. Microstructure, forming limit diagram, and strain distribution of pre-strained DP-IF steel tailor–welded blank for auto body application. The International Journal of Advanced Manufacturing Technology, 2019, pp.1-19. (SCIE Impact Factor: 3.226)

10. Basak, S., Prasad, K.S., Mehto, A., Bagchi, J., Ganesh, Y.S., Mohanty, S., Sidpara, A.M. and Panda, S.K. Parameter optimization and texture evolution in single point incremental sheet forming process. Proceedings of the Institution of Mechanical Engineers, Part B: Journal of Engineering Manufacture, 2019, p.0954405419846001. (SCI Impact Factor: 2.610)

11. Bandyopadhyay, K., Basak, S., Prasad, K.S., Lee, M.G., Panda, S.K. and Lee, J. Improved formability prediction by modeling evolution of anisotropy of steel sheets. International Journal of Solids and Structures, 2019, 156, pp.263-280. (SCI Impact Factor: 3.900)

12. Basak, S., Panda, S.K. Implementation of Yld96 anisotropy plasticity theory for estimation of polar effective plastic strain based failure limit of pre-strained thin steels. Thin-Walled Structures. 2018, 126, 26-37. (SCI Impact Factor: 4.442)

13. Singh, A., Basak, S., Roy, G.G., Jha, M.N., Mascarenhas, M. and Panda, S.K. Prediction of earing defect and deep drawing behavior of commercially pure titanium sheets using CPB06 anisotropy yield theory. Journal of Manufacturing Processes, 2018, 33, pp.256-267. (SCIE Impact Factor: 5.010)

14. Guzman-Aguilera, J.J., Martinez-Gonzalez, C.J., Baltazar-Hernandez, V.H., Basak, S., Panda, S.K., Razmpoosh, M.H., Gerlich, A., Zhou, Y. Influence of SC-HAZ microstructure on the mechanical behavior of Si-TRIP steel welds., Mater. Sci. Eng. A, 2018, 718, 216–227. (SCI Impact Factor: 5.234)

15. Panicker, S.S., Prasad, K.S., Basak, S. and Panda, S.K. Constitutive Behavior and Deep Drawability of Three Aluminum Alloys Under Different Temperatures and Deformation Speeds. Journal of Materials Engineering and Performance, 2017, 26(8), pp.3954-3969. (SCIE Impact Factor: 1.819)

16. Kesharwani, R.K., Basak, S., Panda, S.K. and Pal, S.K. Improvement in limiting drawing ratio of aluminum tailored friction stir welded blanks using modified conical tractrix die. Journal of Manufacturing Processes, 2017, 28, pp.137-155. (SCI Impact Factor: 5.010)

17. Dhara, S., Basak, S., Panda, S.K., Hazra, S., Shollock, B. and Dashwood, R. Formability analysis of pre-strained AA5754-O sheet metal using Yld96 plasticity theory: Role of amount and direction of uni-axial pre-strain. Journal of Manufacturing Processes, 2016, 24, pp.270-282. (SCI Impact Factor: 5.010)

18. Basak, S., Panda, S.K. and Zhou, Y.N. Formability assessment of prestrained automotive grade steel sheets using stress based and polar effective plastic strain-forming limit diagram. Journal of Engineering Materials and Technology, 2015, 137(4), p.041006. (SCI Impact Factor: 1.419)

19. Bandyopadhyay, K., Basak, S., Panda, S.K. and Saha, P. Use of stress based forming limit diagram to predict formability in two-stage forming of tailor welded blanks. Materials & Design, 2015, 67, pp.558-570. (SCIE Impact Factor: 7.991)

 

International conferences

1. Basak, S., Bandyopadhyay, K., Panda and S. K., Prediction of deep-drawability of tailor welded blanks based on non-associated flow rule approach. All India Manufacturing Technology, Design and Research Conference (AIMTDR2021), PSG College of Technology, India 9-11th December, 2021.

2. Basak, S., Kim, C. and Lee, M.G. Numerical Analyses of Shearing Mechanism during Trimming of sheet Metals. 16th Asia-Pacific Conference on Fracture and Strength 2020 (APCFS2020), Jeju, South Korea, 3-7th Nov, 2020.

3. Bandyopadhyay, K., Basak, S., and Lee, M.G. Influence of anisotropy evolution on strain path independent failure limits. International Deep Drawing Research Group (IDDRG2020), Busan, South Korea, 25-29th Oct, 2020.

4. Choi H., Kim CY., Basak, S., and Lee M. G. Ductile fracture behavior of pre-strained ferritic steel sheets: DIC analysis and modeling with distortional hardening law, International Conference on Plasticity, Damage & Fracture (ICPDF2020), Barceló Maya Grand Resort, Rivera Maya, Mexico, 3rd-9th January, 2020.

5. Basak, S., Lee M. G, Panda S. K. Prediction of the fracture strains of pre-strained dual phase steel sheets, Numerical Methods in Industrial Forming Processes (NUMIFORM2019), Portsmouth, New Hampshire, USA, 23-27th June, 2019.

6. Basak, S., Lee, M.G. and Panda, S.K. Analyses of failure strains in pre-strained anisotropic sheet metal. Korea Society of Automotive Engineers Spring Conference (KSAE2019), May 2019, Jeju, South Korea.

7. Basak, S., and Panda, S.K. 2017. “Implementation of YLD-96 Plasticity Theory in Formability Analysis of Bi-axial Pre-strained Steel Sheets”. In 11th International Symposium on Plasticity and Impact Mechanics, (Implast 2016), at IIT Delhi, Delhi, 11-14th December 2016.

8. Bandyopadhyay, K., Basak, S., Choi, H. J., Panda S. K., & Lee M. G., Effect of anisotropic yield function evolution on estimation of forming limit diagram, International Deep Drawing Research Group (IDDRG2017), Munich, Germany, 2-6th July, 2017.

9. Basak, S., and Panda, S.K. 2016 "Application of Barlat Yld-96 Yield Criterion for Predicting Formability of Pre-Strained Dual Phase Steel Sheets." In ASME’s 11th International Manufacturing Science and Engineering Conference (MSEC2016), at Virginia Tech., Blacksburg, Virginia, USA. 27th June- 1st July 2016.

10. Basak, S., Bandyopadhyay, K., Panda, S. K., & Saha, P., Prediction of formability of bi-axial pre-strained dual phase steel sheets using stress based forming limit diagram. All India Manufacturing Technology, Design and Research Conference (AIMTDR), 575-1, IIT Guwahati, Guwahati, India 12-14th December, 2014.

 

Book Chapter

1. Basak, S., Bandyopadhyay, K., Panda, S. K., and Saha, P., Prediction of formability of bi-axial pre-strained dual phase steel sheets using stress-based forming limit diagram. In Advances in Material Forming and Joining, Springer, India, pp. 167-192, 2015.