Prof. Md. Alam - Department of Mechanical Engineering

DEPARTMENT.FACULTY

Prof. Md. Naushad Alam

DEPARTMENT_STAFF.QUALIFICATION
M. Tech, Ph.D
DEPARTMENT_STAFF.DESIGNATION
Professor
DEPARTMENT_STAFF.THRUST_AREA
Smart composite and Sandwich Structure, Active Vibration Control of Structures, Reliability, Availability and Maintainability (RAM) of Structures
DEPARTMENT_STAFF.ADDRESS
Baitul Arfin, st. no. 9, Iqra Colony, Aligarh-202002,UP, INDIA
DEPARTMENT_STAFF.MOBILE
9411488164
DEPARTMENT_STAFF.EMAIL
mnaushadalam@zhcet.ac.in
DEPARTMENT_STAFF.TIME_TABLE
Time Table

Obtained Ph.D in 2006 from IIT Delhi. Teaching experience of 20 years in Mechanical Engineering Department, ZHCET, Aligarh Muslim University, Aligarh. Subject of interests are Engineering Mechanics, Solid Mechanics, Machine Design, Mechanical Vibrations, Computer Aided Design, Finite Element Methods, Fracture Mechanics, Theory of Machine and Mechanism. The Research areas are: Smart composite and Sandwich Structures, Active Control of Structures, Finite Element Analysis, Reliability Availability and Maintainability of Structures and systems. Publicaions in reputed journals are: Composite Structures , I.J. Mechanical sciences, Computational Mechanics, ASME J. Vibration and Acoustics, ASCE J. Engineering Mechanics, J. Thermal Stress, Computer Methods in Applied Mechanics & Engineering, International Journal of Mechanics and Solids, Latin American Journal of Solids and Structures and Structural Engineering and Mechanics (An International Journal) Journal of Mechanical Engineering and Sciences,Advances in Materials and Processing Technologies

DEPARTMENT_STAFF.KEY_PUBLICATION

Publication
1. Kapuria S., Alam N., Exact two-dimensional piezoelasticity solution for buckling of hybrid beams and cross-ply panels using transfer matrices, Composite Structures 64, 1-11, 2004.

2. Kapuria S., Alam N., Zigzag theory for buckling of hybrid piezoelectric beams under electromechanical loads, I. J. Mechanical sciences, 46 (1), 1-25, 2004.

3. Kapuria S., Dumir PC, Ahmad A., Alam N., Finite Element Model of efficient zigzag theory for static analysis hybrid piezoelectric beams, Computational Mechanics.34, 475-483, 2004.

4. Kapuria S., Alam N., Jain N.K., 2D piezoelectricity and zigzag theory solutions for vibration of initially stressed hybrid beams, ASME J. Vibration and Acoustics.., 127, 116-124, 2005.

5. Kapuria S., Alam N., A coupled nonlinear zigzag theory for buckling of hybrid piezoelectric beam under electro-thermo-mechanical loads, ASCE J. Engineering Mechanics, 131, 367-376, 2005.

6. Kapuria S., Alam N., Exact 2D solution and assessment of a 1D zigzag theory for vibration of thermally stressed hybrid beams, J. Thermal Stresses, 28, 1-21, 2005.

7. Kapuria S., Alam N., Coupled efficient zigzag finite element analysis of piezoelectric hybrid beams under thermal loads, J. Thermal Stresses, 29, 553-583, 2006

8. Kapuria S., Alam N., Efficient layer wise finite element model for dynamic analysis of laminated piezoelectric beams, Computer Methods in Applied Mechanics & Engineering, 195, 2742-2760, 2006.

9. Alam N., Upadhyay NK., Finite Element Analysis of Laminated composite beams for Zigzag Theory Using MatLab, International Journal of Mechanics and Solids, 5, 1-14, 2010.

10. Yasin MY., Ahmad Nazeer, Alam N., Finite element Analysis of Actively control Smart Plate with patched actuators and sensors. Latin American Journal of Solids and Structures, 7, 227-247, 2010.

11. Alam N., Upadhyay NK . Anas M., Efficient Finite Element Model for Dynamic Analysis of Laminated Composite Beam, Structural Engineering and Mechanics, vol 42, 471-488, 2012

12.Najeeb ur Rahman, M. Naushad Alam, Active vibration control of a piezoelectric beam using PID controller: Experimental study, Latin American Journal of Solids and Structures, Vol 9(6), 657-673, 2012.

13.Najeeb ur Rahman, M. Naushad Alam, Dynamic Analysis of Laminated Smart Beams using Zigzag Theory, International Journal of Mechanics Structural,IJMS, Volume 3, Number 1 (2012), pp. 35-46

14.Najeeb ur Rahman, M. Naushad Alam, Active Vibration Suppression of Piezoelectric Laminated Beam based on Efficient Finite Element Model using LQG Controller, IJTAM, Volume 7, Number 1 (2012) pp. 9-24.

15.M Sarim, MN Alam, Effect of Piezoelectric Layer on Beam Parameters using Zigzag Theory, AMAE International Journal on Manufacturing and Material Science 3 (1), 2013.

16.M Furqan, MN Alam, Modeling and Analysis of Laminated Composite Beams using Higher Order Theory, AMAE International Journal on Manufacturing and Material Science 3 (1), 2013.

17.Najeeb ur Rahman, M. Naushad Alam, Finite element modeling for buckling analysis of hybrid piezoelectric beam under electromechanical loads, Latin American Journal of Solids and Structures 11 (2014) 770-789.

18.Najeeb ur Rahman, M. Naushad Alam, Finite element modeling for buckling analysis of hybrid piezoelectric beam under electromechanical loads, Latin American Journal of Solids and Structures, volume 11, pp. 770-789, 2014.

19. Najeeb ur Rahman, M. Naushad Alam, Structural Control of Piezoelectric Laminated Beams under Thermal Load, Journal of Thermal Stresses, 38 (1), 69-95, 2015

20. Ateeb Ahmad Khan, M. Naushad Alam, Najeeb-ur Rahman, Mustafa Wajid, Finite element modelling for static and free vibration response of functionally graded beam, Latin American Journal of Solids and Structures, Volume 13, pp. 690-714, 2016.

21. Najeeb ur Rahman, M. Naushad Alam, Effect of piezoelectric layer thickness on static response of a hybrid piezoelectric beam, 2nd International Conference on Mechanical and Manufacturing Engineering (ICMME-2017) SCSVMV University, Kanchipuram, India, 6 – 7 April 2017.

22. Najeeb ur Rahman, M. Naushad Alam, Effect of thickness variation of core and face sheets on free vibration response of a hybrid sandwich beam, Proceedings of 3rd Indian Conference on Applied Mechanics (INCAM 2017) MNNIT, Allahabad, India, 5-7 July 2017, pp. 33-34.

23. Najeeb ur Rahman, M. Naushad Alam, Finite element modelling to assess the effect of surface mounted piezoelectric patch size on vibration response of a hybrid beam, Proceedings of International Conference on Advances in Materials & Manufacturing Applications (IConAMMA 2017) Amrita School of Engineering, Bengaluru, India, 17th-19th August 2017.

24. Md. Tanwir Alam, Akhter Husain Ansari,Sajjad Arif and Md. Naushad Alam, Mechanical properties and morphology of aluminium metal matrix nanocomposites-stir cast products, Advances in Materials and Processing Technologies ,Vol 3, 600-617, 2017.

25. N Rahman, MN Alam, M Junaid, Active vibration control of composite shallow shells: An integrated approach, Journal of Mechanical Engineering and Sciences, 12 (1), 3354-3369, 2018.

26. N Rahman, MN Alam, Finite element modelling to assess the effect of position and size of the piezoelectric layer of a hybrid beam, Latin American Journal of Solids and Structures, 15 (3), 2018.

27.
Mohammed A. K., M. Naushad Alam, Raisuddin
Ansari , Buckling analysis of thin cylindrical CFRP panel with oval cutout, Materials Today Proceedings Vol 21 ,part 2,2020 1270-1277

28. S. M. Shaukat Rafi, M. Naushad Alam and Najeebur Rahman. Modelling and Analysis of Skew Hybrid Sandwich Plate, Proceedings of International Conference in Mechanical and Energy Technology, Smart Innovation Systems and Technologies 174, (589-596), Springer Nature 2020.

29. S. M. Shaukat Rafi, M. Naushad Alam and Najeebur Rahman. Modelling and Analysis of Skew Hybrid Sandwich Plate, Proceedings of International Conference in Mechanical and Energy Technology, Smart Innovation Systems and Technologies 174, (589-596), Springer Nature 2020.

30. Mohammed A. K., M. Naushad Alam and Raisuddin Ansari, Quasi-static study of thin aluminium frusta with linearly varying wall-thickness, International Journal of Crashworthiness, (2019), DOI: 10.1080/13588265.2019.1613762.

DEPARTMENT_STAFF.STUDY_MATERIAL

LIST	Download	UPLOADED DATE
Research paper related to Composite Structure		29/11/2023
Vibration Lect 5		12/09/2023
Teaching Schedule MEC 6340		29/11/2023
Tutorial sheet-1(ME 411)		14/09/2017
M tech..II Sem--- Failure and damage in composites.....		01/04/2020
Mtech II Sem-Macroscopic Failure theories		02/04/2020
Mtech II Sem-Macroscopic Failure theories-2		02/04/2020
Mtech II Sem-Macroscopic Failure theories-Jones		02/04/2020
Mtech II Sem-Analt. Meth. Laminated Composite Plates		02/04/2020
EME-411, Mechanical Vibrations		27/08/2020
Lecture-4; Machine Design-II (MEC 3110)		30/08/2020
Lecture-2, Mechanical Vibrations.		01/09/2020
EME-411_Lecture-3		08/09/2020
Lecture-4, Mechanical Vibration- EME 411		15/09/2020
		17/09/2020
Lecture-5; Machine Design-II (MEC 3110)		17/09/2020
Lecture-6; Machine Design-II (MEC 3110)		17/09/2020
Lecture-7; Machine Design-II (MEC 3110)		28/09/2020
Lecture-8; Machine Design-II (MEC 3110)		28/09/2020
Lecture-9; Machine Design-II (MEC 3110)		28/09/2020
Lecture-10; Machine Design-II (MEC 3110)		28/09/2020
EME 411 Mechanical vibration Lecture 6		29/09/2020
Assignment_1(Journal Bearing)		01/10/2020
EME 411 Mechanical vibration Lecture 7		06/10/2020
EME 411 Mechanical vibration Lecture 8		13/10/2020
EME 411 Mechanical vibration Lecture 9		20/10/2020
Lecture-11; Machine Design-II (MEC 3110)		20/10/2020
Lecture 12; Machine Design-II (MEC 3110)		22/10/2020
Lecture-13; Machine Design-II (MEC 3110)		22/10/2020
Machine Design II(MEC3110), Lecture 14		07/11/2020
Tutorial sheet-II(Machine Design II, MEC3110)		10/11/2020
EME 411 Mechanical vibration Lecture 9		10/11/2020
Charts for Journal Bearings		13/11/2020
EME 411 Mechanical vibration Lecture 11		17/11/2020
EME 411 Mechanical vibration Lecture 12		19/11/2020
EME 411 Mechanical vibration Lecture13		23/11/2020
EME 411 Mechanical vibration Lecture 14		30/11/2020
Lecture-16; Machine Design-II (MEC 3110)		01/12/2020
Lecture-17; Machine Design-II (MEC 3110)		01/12/2020
EME 411 Mechanical vibration Lecture 15		03/12/2020
Machine Design II(MEC3110), Lecture- Leaf& torsional spring		05/12/2020
Teaching schedule		27/10/2021

DEPARTMENT_STAFF.STUDY_MATERIAL_VIDEO

Lecture I, MEC3110
https://drive.google.com/file/d/15t2Han7iPavg7pBWV6wf9QBjAN5t82ZW/view?usp=sharing
Lecture-2; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/1hVx7yhcifHFLcOh7mxGM36E16VcVXoVY/view?usp=sharing
Lecture-6; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/1p0120JP2u1oYoRK8EGwwm9NEcUWQyEGi/view?usp=sharing
Lecture-5; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/1xvhHCWX0GOmX9ifYhdcLGOBd3WFlHiW8/view?usp=sharing
Lecture-7; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/1VJ843qq6g2KdQbI12jRn_2ln0DX_6wdM/view?usp=sharing
Lecture-8; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/14zL9zO7E01q4CrVz9CHvpAOa1dIKC8cG/view?usp=sharing
Lecture 9 (Machine Design II) MEC3110
https://drive.google.com/file/d/1fuNBmXhrw0r9_FL940my025vYFhkFnBo/view?usp=sharing
Lecture-11; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/1ZSSm-I04psbVQNvxBTYVHpO2NJBjCtJY/view?usp=sharing
Lecture-12; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/1U7Cyw8d_Mw1pRETHL6TKkn0gaKZGAwSm/view?usp=sharing
Lecture-13; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/1I20Ja6vz1zDXgETUChM7ol_tuHiZXQGo/view?usp=sharing
Lecture-16; Machine Design-II (MEC 3110)
https://drive.google.com/file/d/1LAsL5SzvsXazRD0pz28UAHghm2cihDaH/view?usp=sharing
Machine Design II(MEC3110), Lecture 18
https://drive.google.com/file/d/19Z05oBuX1PC1gyeFexZ60ITNBJ27X_wS/view?usp=sharing