Mistry Divyesh Arjunbhai
   M.Tech., Mechanical System Design,IIT Kharagpur
   B.E., Aeronautical engineering

 
E-mail ID: mistrydivyesh.a@crit.ac.in
                             Mobile No: +91-87687-08586
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Areas of Interest in Teaching

Finite Element Analysis
Experimental stress Analysis
Mechanics of composite
Machine Design
Advanced Mechanics of solid
Vibration Analysis
Applied Elasticity
Aircraft Structure
Aircraft Design
Fluid Mechanics
Engineering Mathematics
Engineering Management


Project Completed


COMPARISON BETWEEN FINITE ELEMENT METHOD AND MESHLESS METHOD FOR ANALYSIS OF SMART INTELLIGENT STRUCTURE
  • Analysis of Smart Intelligent Structure consisting of Piezoelectric material with Meshless method and Finite Element Method.
  • Developed the formulation of Meshless method for Timoshenko beam and smart intelligent structure.
  • Analysis of Active control vibration of laminated composite beams using piezoelectric reinforced composite layer.
  • Bending Analysis of folded laminated plates by FSDT Meshless method.
  • Analytical model was developed in an industry preferred test-bench MATLAB.
  • Compared Meshless Method Results with Finite Element Method Results and their Exact Solution.
FEA PROJECT
  • Analysis of A Plate with a Circular Hole
  • Generated algorithm of finite element code for stress problem using MATLAB.
  • Determine the displacement field and bending moment in plate.
  • Developed FEM code for estimation of the FEM solution of plate.
  • Verified the MATLAB results with Ansys results.
VIBRATION PROJECT
  • Study of Cantilever beam
  • Modelling of cantilever beam using finite element method.
  • Generated algorithm for finding natural frequency of beam in Matlab.
  • Experimental study to find out natural frequency and mode shapes of cantilever beam.
Vibration study of defects in ball bearing
  • Differentiate the defects into three categories ball defect, inner race defect, outer race defect
  • Analytically calculated the characteristic defect frequency.
  • Experimentally capture the vibration signal n using signal processing techniques find out the frequencies present in signal.
  • From that identified the occurrence of fault in ball bearing system.
Mechatronics Project
  • Vertical Self Balancing Robot.
  • Designed and developed a working model of vertical self-balancing robot using MPU6050 sensor which balance itself against external excitation by PID controller.
ANALYSIS OF PRANDTL - MEYER EXPANSION WAVES
  • Studied governing equations for Prandtl-Meyer expansion waves.
  • Estimated behavior of flow across expansion waves.
  • Developed the formulation of Prandtl-Meyer expansion waves


Areas of Interest in Research

Meshless Method, Experimental stress Analysis


SEMINAR

  • development and characterization of polymer–ceramic continuous fiber reinforced Functionally Graded Composites for aerospace application.
  • various technique of testing black box.