faculty-profile

Dr. Subodh Kumar

info

Associate Professor

Mechanical Engineering

IIT (ISM) Dhanbad

4.5 Years

web-pages

Engineering Graphics, Aplied Mechanics subjects, Mechanical Design Subjects

Finite Element Method, Dynamic Stiffness Method, Functionally Graded Materials, Plates, Structural Vibration

Mail: subodh.kumar@sru.edu.in

Educational
Qualifications
(From Highest)

2020

Ph.D. (IIT(ISM) )Dhanbad

2012

M.E. (B.I.T. Mesra, Ranchi)

2010

B.E. (O.I.S.T. Bhopal)

Professional
Experience

2024

Associate Professor at SR University, Warangal, Telagana , India, from 2024-07-01 to 2024-12-18.

2022

Assistant Professor at SR University, Warangal, from 2022-09-05 to Till Date.

2020

Assistant Professor at MITS Madanapalle, Andhra-Pradesh, from 2020-10-04 to 2022-09-03.

2012

Assistant Professor at VVIT Purnea, Bihar, from 2012-07-01 to 2014-01-30.

Student
Supervision

1

PG

20

UG

Key Publications

Sandeep Gupta, Sumit Gupta, Subodh Kumar, Arpita Baronia, (2024). Microbial fuel cell powered methane concentration sensing system and method, Indian patent application no.202441040424A published on 31/05/2024.

Subodh Kumar, Ankit Gupta, V R Shanmukhasundaram, Jay Prakash Srivastava and Prashant Choudhary, Determining the accurate free vibration response of thin functionally graded plates using the dynamic stiffness method, IOP publication, published in Chapter 10 of the book title “Functionally Graded Structures: Modelling and Computation for Static and Dynamic Problems”. https://iopscience.iop.org/book/edit/978-0-7503-5301-4/chapter/bk978-0-7503-5301-4ch10

Choudhary, K.P., Kumar R. and Kumar, S., Free Vibration Response of Functionally Graded Porous Metallic Plates Embedded with Piezoelectric Layers, Journal of Mines, Metals and Fuels s, 71(10): 1645-1656; 2023. Download link

Aameera, S., K. Kumar, S., Gupta A. Choudhary, K.P, and Narayan, A. (2024). Free Vibration Characteristics of Elastic Foundation-Supported Porous Functionally Graded Nano-Plates Using Rayleigh-Ritz Approach, International Journal of Structural Integrity (Q2, ESCIE IF-2.7). Vol. 15 No. 2, pp. 298-321. Download link

• Subodh Kumar, Ankit Gupta, V R Shanmukhasundaram, Jay Prakash Srivatava and Prashant Chaudhary Determining the accurate free vibration response of thin functionally graded plates using the dynamic stiffness method, IOP publication, Accepted for publication in Chapter 10 of book title “Functionally Graded Structures: Modelling and Computation for Static and Dynamic Problems”. Online ISBN: 978-0-7503-5301-4 • Print ISBN: 978-0-7503-5299-4

7. Subodh Kumar, Piyush Pratap Singh, Vinayak Ranjan, Ranjan Kumar “Free Vibration Analysis of Isotropic plate using Dynamic Stiffness Method and Finite Element Method- A comparison ” Conference Preceding (Excel India Publishers), ISBN:978-93-83842-95-2; International conference on” Aspect of Mechanical Engineering and Technology for industry”,6-8 Dec. 2014 at NIRIST, Arunachal Pradesh

6. Ranjan Kumar, Vinayak Ranjan, Subodh Kumar, Jay Prakash Srivastava, “An Investigation of Critical Stresses on a Gas Turbine Disc Rotating at Different Speeds by Analytical and Finite Element Method” Conference Preceding (Excel India Publishers), ISBN:978-93-83842-95-2; International conference on” Aspect of Mechanical Engineering and Technology for industry”,6-8 Dec. 2014 at NIRIST, Arunachal Pradesh

5. Imran Ali, Subodh Kumar, Vinayak Ranjan “Effect of volume fraction index and mass ratio on natural frequency of clamped functionally graded plate with attached point mass” IEEE Conference Publications, 1968-1972, 3-5 March 2016, DMI College of Engineering, India,DOI: 10.1109/ICEEOT. 2016. 7755033

4. M. I. Ali, M. S. Azam, S. Kumar “on exact out of plane material inhomogeneity for fundamental frequency of FGM plate by Rayleigh- Ritz method” ICOVP, 13th International 29th November – 2nd December, 2017, IIT Guwahati, INDIA.

3. Subodh Kumar, Prasun Jana “Free vibration analysis of thin E-FGM plates resting on elastic foundation by using the dynamic stiffness method” 7th CCOMAS, Thematic Conference on the Mechanical Response of Composites: COMPOSITES 18-20 September 2019, Girona, Spain.

2. Subodh Kumar, Sachin Kumar Singh, Prasun Jana “Free vibration analysis of S-FGM plates resting on elastic foundation by using the dynamic stiffness method” 1st Online International Conference on Recent Advances in Computational and Experimental Mechanics, 4-6 September 2020, IIT Kharagpur, India.

4. Kumar, S., Ranjan, V. and Jana, P. (2018). Free vibration analysis of thin functionally graded rectangular plates using the dynamic stiffness method, Composite Structures, (Q1, SCIE IF-6.603), 197, 39-53.

3. Kumar, S., and Jana, P. (2019). Application of dynamic stiffness method for accurate free vibration analysis of sigmoid and exponential functionally graded rectangular plates. International Journal of Mechanical Sciences, (Q1, SCIE IF- 7.3), 163, 105105.

2. Rai S., Kumar, S., Singh R. and Gupta A. (2022). Effect of porosity inclusions on the natural frequencies of the FGM plates using dynamic Stiffness method, International Journal on Interactive Design and Manufacturing, (Q2, ESCI IF-2.618)

Book Chapter: • Saurabh Rai, Subodh Kumar, Ankit Gupta, A comprehensive review on design and development of advanced tailored material on sustainability aspects, Taylor & Francis group, published in chapter 9 of book title “Sustainable Advanced Manufacturing and Materials Processing” with eBook ISBN 9781003269298.

Conference Publications: 1. V.R. Shanmukhasundaram, Subodh Kumar, Swagatika Mohanty & Ettore Pennestrì “Application of Creative Design Methodology in the Enumeration of Alternative Kinematic Structures for Macpherson Strut”1st International Conference on Materials, Energy, and Mechanical Engineering (ICME2-2021) held during 17-18 December 2021. MITS, Madanapalle.

Referred Journal Publications: 1. Kumar, S., and Jana, P. (2022). Accurate solution for free vibration behaviour of stepped FGM plates implementing the dynamic stiffness method, Structures, (Q1, SCIE IF-4.010), 45, 1971-1989. .

Research Projects / Patents

Microbial fuel cell powered methane concentration sensing system and method

Microbial fuel cells are used to propel the sensor system and are capable of transferring the sensing data to the receiving center without much intervention or maintenance.

Awards and Honors / Achievements

Project

Primarly evaluator for exceptional contribution for in Toycathon 2021