Dr.Sandeep Rathee


Email : sandeep.rathee@nitsri.net

Research Area :

Friction Stir Welding/ Processing, Additive Manufacturing, Metal Matrix Composites, Material Characterization, Hybrid Manufacturing.


Name : Dr.Sandeep Rathee

Gender : Male

Designation : Assistant Professor

Department : Mechanical Engineering

URL :

Date of Joining : -

Address :

City : -

State : -

Country : -

Email Address : sandeep.rathee@nitsri.net

Phone [Residence] : -

Phone [Mobile] : 08076036082

No. Degree/Diploma Institute/ Organization Year Branch/Specialization
1 Ph. D.  (Doctor of Philosophy ) Manufacturing Processes & Automation Engg. 2018
2 M.TECH  (MASTER OF TECHNOLOGY ) Manufacturing & Automation Engg. 2012
3 B.TECH  (Bachelor of Technology ) Mechanical Engg. 2008
No. Publication Journal Month Year
1 Additive manufacturing: recent trends, applications and future outlooks, Progress in Additive Manufacturing (Springer), 2022, 7, p. 261–287. 2022
2 Parametric Optimization of Friction Stir Welding of Al-Mg-Si Alloy: A Case Study, Yugoslav Journal of Operations Research, 31(2), 2021, 31(2), p 265-272. (Scopus Index) 2021
3 Metal additive manufacturing using friction stir engineering: A review on microstructural evolution, tooling and design strategies, CIRP Journal of Manufacturing Science and Technology, (Elsevier), p. 560-588, 2021. (SCI, I.F.- 3.602) 2021
4 A Study on the Effect of Incorporation of SiC Particles during Friction Stir Welding of Al 5059 Alloy, Silicon (Springer), p. 2209-2219, 2021 (SCI, I.F: 2.941) 2021
5 Microstructural and microhardness study on fabrication of Al 5059/SiC composite component via a novel route of friction stir additive manufacturing, Materials Today Proceedings, (Elsevier, Scopus Index) 2020
6 Investigation on underwater FSP of Al-Mg-Si alloy surface composites, Material Research Express, vol. 6 (2) p. 026520 (1-11), 2019. (SCI, I.F: 2.025) 2019
7 Investigation on the effects of silicon carbide and cooling medium during multi-pass FSP of Al-Mg/ SiC surface composites, Journal of Silicon (Springer), Vol. 11, p. 2149–2157, 2019, (SCI, I.F: 2.941) 2019
8 Investigating the effects of SiC particle sizes on the microstructural and mechanical properties of AA5059 based surface composites fabricated via friction stir processing, Journal of Silicon (Springer), 11(2), 2019, p. 797-805 (SCI, I.F: 2.941) 2019
9 A review on recent progress in solid state friction based metal additive manufacturing: Friction stir additive techniques, Critical Reviews in Solid State and Materials Sciences, (Taylor & Francis), 2019, 44(5)p. 345-377 (SCI, I.F: 11.178) 2019
10 Optimization of FDM process parameters by Taguchi method for imparting customized properties to components, Virtual and Physical Prototyping, 2018, 13(3), p. 203-210 (SCI, I.F: 10.962) 2018
11 Issues and strategies in composite fabrication via friction stir processing: A review, Materials and Manufacturing Processes, (Taylor & Francis), 2018, 33(3): p. 239-261 (SCI, I.F: 4.783) 2018
12 A review of recent progress in solid state fabrication of composites and functionally graded systems via friction stir processing, Critical Reviews in Solid State and Materials Sciences, (Taylor & Francis), 2018, 43(4), p. 334-366 (SCI, I.F: 11.178) 2018
13 Distribution of Reinforcement particles in surface composite fabrication via Friction stir processing: Suitable Strategy, Materials and Manufacturing Processes, (Taylor & Francis), 2018. 33(3): p. 262-269 (SCI, I.F: 4.783) 2018
14 Multi Objective Optimization of Fused Deposition Modelling process parameters using RSM and fuzzy logic for build time and support material, International Journal of Rapid Manufacturing (Inderscience), 2018, 7(1), p. 25-42 2018
15 Estimating percentage contribution of process parameters towards build time of FDM process for components displaying spatial symmetry: A case Study" International Journal of Materials and Product Technology (Inderscience), Vol. 58(2/3), pp. 201-224, 2019 (SCI) 2018
16 Optimisation of friction stir processing parameters to fabricate AA6063/SiC surface composites using Taguchi technique, International Journal of Materials and Product Technology (Inderscience), Vol. 58, No. 1, p. 16-31, 2019, (SCI) 2018
17 Investigating effect of multiple passes on microstructural and mechanical properties of Al-Mg/SiC surface composites using Under water FSP, Material Research Express, 2018, 5(6), p. 066511, (SCI, I.F: 2.025) 2018
18 Analysis of Microstructural Changes in Enhancement of Surface Properties in Sheet Forming of Al alloys via Friction Stir Processing, Materials Today Proceedings, (Elsevier, Scopus Index), Volume 4, Issue 2, pp- 452-458 2017
19 Effects of varying spatial orientations on Build Time requirements for FDM process: A Case Study, Defence Technology (Elsevier Journal), 2017. 13(2): p. 92-100 (SCIE, I.F: 4.035) 2017
20 Multi-Response Optimization of Fused Deposition Modelling Process Parameters of ABS Using Response Surface Methodology (RSM)- Based Desirability Analysis, Materials Today Proceedings, (Elsevier, Scopus Index), Volume 4, Issue 2, pp- 1972-1977 2017
21 Effect of tool plunge depth on reinforcement particle distribution in surface composite fabrication via Friction Stir Processing, Defence Technology (Elsevier), 2017. 13(2): p. 86-91 (SCI, I.F: 4.035) 2017
22 Investigating effects of groove dimensions on microstructure and reinforcement particles distribution of AA 6063/ SiC surface composites produced by friction stir processing, Transactions of The Indian Institute of Metals, (Springer), 2017, 70(3), p. 809–816, (SCI, I.F: 1.205) 2017
23 An Integrated RSM –GA Based Approach for Multi Response Optimization of FDM Process Parameters for Pyramidal ABS Primitives, Journal for Manufacturing Science and Production, (De Gruyter), 16(3), 2016, pp-201-208. (Web of Science) 2016
24 Virtual Design, Modelling and analysis of Functionally graded materials by Fused Deposition Modelling, Materials Today Proceedings, (Elsevier, Scopus Index), 3(10), Part B, pp. 3660-3665 2016
25 Process parameters optimization for enhanced microhardness of AA 6061/ SiC surface composites fabricated via Friction Stir Processing (FSP), Materials Today Proceedings, (Elsevier, Scopus Index), 3(10), Part B, pp 4151-4156 2016
No. Book Published Year
1 Pulak M. Pandey, Sandeep Rathee, Manu Srivastava, Prashant K. Jain. Functionally Graded Materials (FGMs): Fabrication, Properties, Applications, and Advancements (1st ed. 2021). CRC Press, Taylor & Francis group. https://doi.org/10.1201/9781003097976 2021
2 Book Titled “Additive Manufacturing: Fundamentals and Advancements”, Ist ed.2019, Boca Raton: CRC Press, Taylor & Francis group 2019
3 Book Titled “Friction Based Additive Manufacturing Technologies: Principles for Building in Solid State, Benefits, Limitations, and Applications”, Ist ed.2018, Boca Raton: CRC Press, Taylor & Francis group 2018
No. Patent Description Year
1 Apparatus to Create Three Dimensional Objects with Enhanced Traverse Strength by Depositing Materials in Layers (Design)- Published. 2022
2 Apparatus for Additive Manufacturing to Create Composite Structure (Design)- Published 2022
3 Prosthetic Arm- Design (published) 2022

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