DEPARTMENT.FACULTY

photo
Prof. Raisuddin Ansari
  • DEPARTMENT_STAFF.QUALIFICATION

    Ph. D. Applied Mechanics, M. Sc. Engg. (Mechanical), B.Sc. Engineering (Mechanical)

  • DEPARTMENT_STAFF.DESIGNATION

    Professor

  • DEPARTMENT_STAFF.THRUST_AREA

    Impact Mechanics, Crashworthiness, Solid Mechanics, Machine Design

  • DEPARTMENT_STAFF.ADDRESS

    Permanent Address:c/o CH. S. H. Najmuddin, Purana Gorakhpur, Gorakhnath ,Gorakhpur 273 015

  • DEPARTMENT_STAFF.MOBILE

    9456404433

  • DEPARTMENT_STAFF.EMAIL

    raisansari@zhcet.ac.in

  • DEPARTMENT_STAFF.TIME_TABLE

    Time Table_2023-24

DEPARTMENT_STAFF.COMPLETE_CV
DEPARTMENT_STAFF.PROFILE

Dr. Raisuddin Ansari obtained his Bachelor and Master Degrees in Mechanical Engineering from A M U Aligarh. After serving the Department as Lecturer and Senior Lecturer, he joined Applied Mechanics Department of IIT Delhi in 1994 for research under QIP and received his Ph D Degree in 1998 in the area of Impact Mechanics. He is associated with the Machine Design Section of the department and teaching courses like Solid Mechanics, Kinematics of Machine, Machinery Dynamics, Advanced Solid Mechanics, Mechanics of Composite Material, Machine Drawing etc. A Pneumatic Gun was designed and fabricated by him in the department through AICTE Research Project. The experimental setup, one of the few of its type in India, has been developed within the department. It is capable of normal and oblique impact loading on plates and beams of metals and composites through projectiles of different nose shapes and sizes at varying velocities in sub-ordnance velocity range. His papers are published in Int. Journal of Impact Engineering, Int. Journal of Crash worthiness, Latin American Journal of Solids & Structures, Defense Science Journal, IMPLAST Proc. etc. which attains more than 266 Citations.

Google Scholar Link

  1. Key Publications

     

    1. Normal Impact of Ogive Nosed Projectiles on Thin Plates. Int. J. Impact Engg. 25, (7), 2001, pp. 641-660. (Impact factor 3.642, Citation 81)
    2. Experimental and Numerical Studies of Double-Nosed Projectile Impact on Aluminium Plates. Int. J. Impact Engg., 54, 2013, pp.232-245. (Impact factor 3.642, Citation 44)
    3. Oblique Impact of Projectile on Thin Aluminium Plates. Defence Science Journal, 53 (2), April 2003, pp. 139-146.  (Impact factor 0.73, Citation 17)
    4. Failure of Aluminium Beams under Low Velocity Impact. Int. J. Impact Engg., 35, 2008, pp.1201-1212. (Impact factor 3.642, Citation 17)
    5. Ballistic Response of 1100-H14 Thin Aluminum Plates against Blunt and Conical Nose Projectiles, Proc. ICILLS2014,  4th Int. Conf. on IMPACT LOADING OF LIGHTWEIGHT STRUCTURES,  12-16 Jan 2014, Cape Town, South Africa (Citation 2)
    6. Experimental and numerical investigation of perforation of thin polycarbonate plate by projectiles of different nose shape, LAJSS, v14, 2017, pp.357-372. (Impact factor 1.26, Citation 8)
    7. Quasi-static study of thin aluminium frusta with linearly varying wall-thickness, Int. J. Crashworthiness, 2019, DOI: 10.1080/13588265.2019.1613762 (Impact factor 1.48, Citation 3)
    8. Normal and Oblique Impact of Projectiles on Single and Layered Thin Plates. R Ansari, Ph.D. Thesis, IIT Delhi, 1998 (Citation 5)
    9. Experimental and numerical analysis of impact of conical projectile on polyethylene plate, 

      IOP Conf. Ser.: Mater. Sci. Eng. 396 012069

    10. Buckling analysis of thin cylindrical CFRP panel with oval cutout, Materials Today: Proceedings 21, 1270-1277 (Citation 3)


  2. Publication

     

    1. Normal Impact of Ogive Nosed Projectiles on Thin Plates. Int. J. Impact Engg. 25, (7), 2001, pp. 641-660. (Impact factor 3.642, Citation 99)
    2. Experimental and Numerical Studies of Double-Nosed Projectile Impact on Aluminium Plates. Int. J. Impact Engg., 54, 2013, pp.232-245. (Impact factor 3.642, Citation 66)
    3. Oblique Impact of Projectile on Thin Aluminium Plates. Defence Science Journal, 53 (2), April 2003, pp. 139-146.  (Impact factor 0.73, Citation 25)
    4. Failure of Aluminium Beams under Low Velocity Impact. Int. J. Impact Engg., 35, 2008, pp.1201-1212. (Impact factor 3.642, Citation 21)
    5. Ballistic Response of 1100-H14 Thin Aluminum Plates against Blunt and Conical Nose Projectiles, Proc. ICILLS2014,  4th Int. Conf. on IMPACT LOADING OF LIGHTWEIGHT STRUCTURES,  12-16 Jan 2014, Cape Town, South Africa (Citation 3)
    6. Experimental and numerical investigation of perforation of thin polycarbonate plate by projectiles of different nose shape, LAJSS, v14, 2017, pp.357-372. (Impact factor 1.26, Citation 18)
    7. Quasi-static study of thin aluminium frusta with linearly varying wall-thickness, Int. J. Crashworthiness, 2019, DOI: 10.1080/13588265.2019.1613762 (Impact factor 1.48, Citation 5)
    8. Normal and Oblique Impact of Projectiles on Single and Layered Thin Plates. R Ansari, Ph.D. Thesis, IIT Delhi, 1998 (Citation 5)
LISTDownloadUPLOADED DATE
Cam follower 2
30/04/2023
Cam follower 1
30/04/2023
Torsion General Section
12/12/2023
Torsion Non-circular and Thin walled tube
12/12/2023
Cam Profile 1
30/04/2023
Cam Profile 2
30/04/2023
Cam profile 3
30/04/2023
Gyroscope
23/04/2020
Machinery Dynamics MEC3120 Syllabus
23/04/2020
Lab Manual Pneumatic Gun, Impact Mechanics Lab
18/02/2020