AAKAAR JAISWAL
636-***-**** adm6l9@r.postjobfree.com
Career Objective
Focused individual looking for a mechanical engineering position in a fast-paced organization where hard work and excellence is appreciated. Bringing ability to establish details of the designs and their specifications with an excellent knowledge of electronic sensors, microcontrollers, and motor control.
Education
Bachelor of Science in Mechanical Engineering, May 2021
University of Texas at Dallas
GPA: 3.33
Computer Skills
CAD: CREO and SolidWorks
Simulation: Finite element analysis, computational fluid dynamics, and topology optimization
Hardware: Soldering, hand drill, table saw, drill press, and Dremel
Software: MATLAB and Arduino
Work History
University of Texas at Dallas – Dallas, TX August 2020 – Present
With a team of five, designed a robotic system that emulates the forces on offshore wind turbines
Used ANSYS and predicted potential failures using finite element analysis (FEA) on aluminum and steel parts and modified the designs as needed which resulted in lower deformations
Using ANSYS, utilized topology optimization feature to reduce mass and cost of components
Used CREO Parametric and designed an electrical enclosure which protected the wires and microcontroller.
Documented and tested electromechanical components and reported the calculated data to client and came up with a improved design which met the project requirements
Engineering Intern at SmartDots LLC – Dallas, TX June 2019 – Present
Designed parts using CREO 7.0 and provided detailed engineering drawings of the parts and designs
Created detailed exploded views of the assemblies for demonstration purposes and gained client’s approval
Solved a client’s problem and designing a robot in CREO 7.0, upon completion, the robot will automatically edge grass
Applied dynamics and calculated the required torques for actuation
Educated potential customers for Husqvarna robotic lawn mower sales at shows/events and sold 3 lawn mowers
Projects
Quadcopter August 2020 – Present
Used soldering and built a compact controller consisting of an IMU sensor, power distribution system, and an Arduino Nano which reduced the total weight of the drone by 30%
Troubleshot electronic components and circuits
Designed a 4 Degrees of Freedom Robotic Arm June 2020 – August 2020
Led a team of four in designing a robotic arm
Designed a kinematic model of a robotic arm in CREO using dynamics and kinematics
Researched and sourced off-the-shelf parts which reduced design time
Created detailed engineering drawings of parts and assembles by adding dimensions, BOM, scale, and title blocks
Reduced cost by 72% through optimization of the weight in the arm