Summary
Overview
Work History
Education
Skills
Certification
Courses
Competences
Timeline
Generic
Arpita Jena

Arpita Jena

cae engineer
Pune

Summary

Engineering professional well-versed in computer-aided engineering and analysis. Proven ability to drive impactful results through accurate simulations and team collaboration. Reliable team player who adapts seamlessly to changing project requirements and focuses on achieving high-quality outcomes. Skilled in finite element analysis and software utilization.

Knowledgeable [Desired Position] with solid foundation in computer-aided engineering. Demonstrated proficiency in engineering simulations and analysis, contributing to successful project completions. Known for expertise in finite element analysis and problem-solving skills.

Overview

9
9
years of professional experience
1
1
Certification
2
2
Languages

Work History

AUTOMOBILE PARTS, CAE Engineer

TATA TECHNOLOGIES.
09.2023 - Current
  • Streamlined workflow processes for improved efficiency, resulting in reduced project turnaround times.
  • Established a robust verification and validation process for CAE models, improving model reliability and performance predictions.
  • Developed and maintained comprehensive documentation of CAE processes, ensuring consistency and repeatability across all projects.
  • Contributed to the development of new products by providing timely feedback regarding potential manufacturing challenges identified during virtual simulations.
  • Delivered comprehensive reports detailing CAE results, supporting decision-making within the organization.

AUTOMOBILE PARTS, CAE Engineer

MAHLE ENGG SERVICES
01.2022 - 08.2023
  • PCU SIMULATION (POWER CELL UNIT SIMULATION)
  • Objective: To calculate temp, profiles, side force, phi3pp, static, mafat by the application of temp, lateral and angular force.
  • Mesh types: solid meshing
  • Pre/post processor: hypermesh/Hyperview
  • Solver: permas Type: linear Analysis, dynamic analysis
  • Description: solid meshing is done on piston, pin & conrod. Find out the temp interpolation points and find out the temp plots. profile calculation are done on the pin bore and skirt area. side force and phi3pp calculation are done to get lateral and angular load curves. put the value of pressure, temp, profiles and load results in the static file and do the static calculations. use the load steps of the static calculations and find out the mafat results.

AUTOMOBILE PARTS, CAE Engineer

AFRY, CAE
08.2020 - 12.2023
  • PRESSURE VESSEL ANALYSIS
  • Objective: To calculate stress, strain & displacement by the application of pressure, temperature, gravity
  • Mesh types: shell & solid meshing
  • Pre/post processor: Ansa/Hyperview
  • Solver: optistruct Type: linear Analysis
  • Description: calculate stress, strain, displacement of pressure vessel assembly by applying pressure and temp & gravity.
  • BUCKLING ANALYSIS OF PRESSURE VESSEL
  • Mesh types: Shell & solid Meshing
  • Pre/post processor: Ansa/Hyperview
  • Solver: optistruct Type: Buckling Analysis
  • Description: calculate eigenvalue of pressure vessel assembly by buckling. MODAL ANALYSIS OF PRESSURE VESSEL
  • Mesh types: Shell & solid Meshing
  • Pre/post processor: Ansa/Hyperview
  • Solver: optistruct Type: Modal Analysis
  • Description: calculate mode shapes & natural frequency of pressure vessel assembly by modal analysis.
  • Description: calculate life of pressure vessel assembly. OIL CANNING
  • Objective: Stiffness of pressure vessel
  • Mesh types: Shell & solid Meshing
  • Pre/post processor: Ansa/Hyperview
  • Solver: optistruct Type: Non-linear Analysis
  • Description: First weak locations of pressure vessel were found through modal analysis. At that location oil canning analysis was performed. Oil canning was carried out to measure the static stiffness to check the flimsiest ness of the pressure vessel. Results were compared against previous loop designs and recommendations were given.

AUTOMOBILE PARTS, CAE Engineer

ARPITA JENA, CAE
12.2016 - 06.2019
  • OIL CANNING & DENTING
  • Objective: Stiffness and permanent set check of door assembly Mesh types: Shell Meshing (All metal parts)
  • Pre/post processor: Hypermesh/Hyperview Solver: Abaqus (standard 3D) Type: Non-linear Analysis
  • Description: First few weak locations of door outer panel were found through modal analysis. At those locations oil canning and denting analysis was performed. Oil canning was carried out to measure the static stiffness to check the flimsiest ness of the outer panels. Denting was carry out to measure any permanent set due to dent load. Results were compared against previous loop designs and recommendations were given.
  • DOOR STIFFNESS ANALYSIS
  • Objectives: To assess various stiffness of door assemblies Mesh types: Shell Meshing (All metal parts)
  • Pre/post processor: Hypermesh/Hyperview
  • Solver: Abaqus (standard 3D) Type: Non-linear Analysis
  • Description: During assembly into door as to seal locations, lateral loads applied into door frame which makes it to deform. Hence, stiffness of the door in various areas of the frame becomes necessary to be checked. Door stiffness is checked at following conditions: 1. Front frame stiffness 2. Rear frame stiffness 3. Beltline Inner Stiffness 4. Beltline Outer Stiffness Results are computed and reported. Recommendations were given in case of non-compliance of targets.
  • GLASS IMPACT ANALYSIS
  • Objectives: To assess displacement of door assemblies Mesh types: Shell Meshing (All metal parts)
  • Pre/post processor: Hypermesh/Hyperview
  • Solver: Abaqus (standard 3D) Type: Non-linear Analysis
  • Description: During the test, there were high deflections observed on frame area of the door while closing the glass of the door. Hence, performance of the door frame against glass loading was evaluated.


Education

Bachelor - MECHANICAL ENGINEERING

Orissa Engineering College
Odisha
01.2015

Skills

  • CAE Tools:- Pre/post processor- Hypermesh, ANSA, Hyperview
  • Solver:- Optistruct , Abaqus (Standard 3D), permas
  • Analysis Done:

Linear analysis

Nonlinear analysis

Failure modes analysis

Structural analysis

Certification

2016 DIPLOMA IN CAE, HYPERMESH, ANSA, ABAQUS, OPTISTRUCT

Courses

2016 HYPERMESH

Competences

ABAQUS/STANDARD, ANSA, HYPERMESH, HYPERVIEW, NASTRAN, OPTISTRUCT

Timeline

AUTOMOBILE PARTS, CAE Engineer

TATA TECHNOLOGIES.
09.2023 - Current

AUTOMOBILE PARTS, CAE Engineer

MAHLE ENGG SERVICES
01.2022 - 08.2023

AUTOMOBILE PARTS, CAE Engineer

AFRY, CAE
08.2020 - 12.2023

AUTOMOBILE PARTS, CAE Engineer

ARPITA JENA, CAE
12.2016 - 06.2019

Bachelor - MECHANICAL ENGINEERING

Orissa Engineering College
Arpita Jenacae engineer