CAREER OBJECTIVE

Seeking an entry-level job opportunity in CAE domain to give the best of my technical knowledge for the growth of organization and myself.

ACADEMIC QUALIFICATION

MASTERS IN CAE at Skill Lync (Present)

B.Tech (Mechanical) at St. Ann’s college of Engineering &Technology, Nayunipalli (68%) (2018)

Intermediate (M.P.C) at Sri Gowthami junior college, Chirala (88%)(2014)

S.S.Cat B.V&B. N high school, Jandrapet (9.7 CGPA)(2012)

TECHNICAL SKILLS

Designing: AUTO CAD, SOLID WORKS (basics)

CAE : ANSYS Structural, HYPERMESH,RADIOSS

Programming languages: Python ( basics)

PROJECTS

3D meshing of crank housing

Imported given cad model.

Checked for defects and cleanup done.

3d meshing performed and tet collapse cleared.

2D meshing of backdoor of hatchback car

Imported the given geometry into HyperMesh.

Extracted mid surface for each component separately, cleanup was done.

Created 2d mesh on mid surfaces

After quality criteria check-up re meshed to match the given quality criteria.

2D meshing of car front hood

Imported the given geometry into HyperMesh.

Extracted mid surface for each component separately, cleanup was done.

Created 2d mesh on mid-surfaces

After quality criteria check-up re meshed to match the given quality criteria.

2D meshing of car side door trim

Imported the given geometry into HyperMesh.

Extracted mid surface for ribs separately using manual offset and joined all ribs to main mid surface,cleanup done.

Created 2d mesh on mid-surfaces.

After quality criteria check-up re meshed to match the given quality criteria.

Thickness was assigned as per the geometry.

2D meshing of Floor panel trim

Imported the given geometry into HyperMesh.

Extracted mid surface, cleanup was done.

Created 2d mesh on mid-surfaces

After quality criteria check-up re meshed to match the given quality criteria.

Thickness was assigned as per the geometry.

2D meshing of Porsche 914 Floor plan

Imported the given geometry into HyperMesh.

Extracted mid surface, cleanup was done.

Created 2d mesh on mid-surfaces

After quality criteria check-up re meshed to match the given quality criteria.

Thickness was assigned as per the geometry.

Transient structural analysis on worm gear assembly using ANSYS WORKBENCH

Imported the geometry in ANSYS workbench, assigned material and auto-meshed the geometry.

Defined contacts and joints,constraints,Found-out stress distribution.

Explicit dynamics simulation on machining with planar using ANSYS WORKBENCH

Imported the geometry in ANSYS workbench, assigned material and auto-meshed the geometry.

Defined velocity constraints.

Found-out stress distribution and deformation and temperature developed in the body.

Static structural analysis on a Rail-wheel and Track setup using ANSYS WORKBENCH

Imported the geometry in ANSYS workbench, assigned material and auto-meshed the geometry.

Defined joints, load and constraints.

Found-out stress distribution and deformation and temperature developed in the body.

Grid dependency test for bevel gear simulation using ANSYS WORKBENCH

After applying constraints found out stress, strain and total deformation.

Analysis started with coarse mesh and refined finer mesh until results,

change significantly is grid dependency.

Simulation of bullet penetrating bucketusing ANSYS WORKBENCH

Imported the geometry in ANSYS workbench, assigned material and auto-meshed the geometry.

Defined velocity, constraints.

Found-out stress distribution and deformation and compared the results of 3 different materials.

Car crash simulationusing ANSYS WORKBENCH

Imported the geometry in ANSYS workbench, assigned material and auto-meshed the geometry.

Defined velocity, constraints.

Found-out stress distribution and deformation and compared the results of 3 different thickness of body.

Frontal crash analysis on Neon BIW model

Imported the model and created appropriate interfaces.

checked and solved the intersection penetrations.

creating rigid wall,search distance, cross-sections,accelerometers.

Found out energies,energy graphs,cross-sectional forces,intrusions and acceleration forces.

Side crash analysis on Neon BIW model

Imported the model and created appropriate interfaces.

checked and solved the intersection penetrations.

creating rigid body,search distance, cross-sections,accelerometers.

Found out energies,energy graphs,cross-sectional forces,intrusions and peak velocity.

Simulation of the neon BIW model for the roof crash analysis using an impactor.

Imported the mode,Impactor arranged the impactor with the given transformations

created appropriate interfaces and boundary conditions,imposed velocities.

Found out energies,energy graphs,peak force exerted by the impactor and acceleration forces.

Final year project: performance characteristics of single cylinder diesel engine using Ceria as Nano additive to diesel.

To study the performance of a compression ignition (CI) engine fueled with diesel with nano particles as an additive. Variousblends were prepared by varying the cerium oxide nano particles proportions.

Cerium oxide and leads to an improvement in thermal efficiency compare to diesel operation at full load, increases the oxidation rate, less in the amount the light-off temperature and thereby further improve the quality of the combustion with of a minimum amount emission.

CO-CIRCULAR ACTIVITIES

Participated in Robotics workshop organized by Robokart.com in association with E-cell IIT Bombay at St.Ann’s College of Engineering & Technology.

Participated in FUSION 360 workshop organized by AUTODESK at chirala Engineering College.

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