Portfolio
ELDHOSE
BYJU
A passionate mechanical engineer, with a solid foundation in engineering principles and a keen eye for design, I have honed my expertise in Auto CAD, SolidWorks, Catia, Creo, Rivet-MEP and Primavera. Through this portfolio I aim to showcase my dedication, creativity, and technical prowess in transforming ideas into tangible innovations.
PROFILE
Skills
Technical Skills
Solidworks
AutoCAD
Catia
Rivet
Primavera
Creo
Unity
C++
Soft Skills
Critical Thinking
Team Coordination
Active Listening
Adaptability
Problem Solving
Languages
Malayalam
English
Hindi
Education
contact
Diploma in Power Engineering Technology
2024 - Present
Northern Alberta Institute of Technology [NAIT], Edmonton
B.Tech in Mechanical Engineering
2019 - 2023
Mar Baselios Institute of Technology and Science, Nellimattom
APJ Abdul Kalam Technological University, Kerala
Higher Secondary in Computer Science
2017 - 2019
MGM Higher Secondary School, Kuruppampady
Directorate of Higher Secondary Education [DHSE], Kerala
Secondary Education
2015 - 2017
Santom Public School , Thungali
Central Board of Secondary Education [CBSE], New Delhi
Phone :
Email :
LinkedIn :
Work Experience
Mechanical Design Faculty at ICAD, Muvattupuzha
April 2024 - September 2024
MY WORKS
Following are some of my personal projects in 3D modelling. The CAD files of the models are open source and available through my profile in GrabCAD - an online community of engineers and designers.
ROBOTIC ARM
An assembly model of an industrial robotic arm created and animated using SolidWorks. The model comprises of six parts, with six degrees of freedom. The first link, the base, is fixed and supports the entire mechanism. The second link or the shoulder link, is positioned above the base and rotates about its axis. The third and fourth links are the elbows with bending motions. The fifth link, also known as the arm, rotates about the fourth link and directs the gripper, which also has a rotary motion. A mate controller was used to animate the model, along with a motor for the gripper rotation.
Helicopter Rotor
Model of a helicopter's main rotor designed and animated in SolidWorks software. This model comprises 26 unique components, featuring flapping, pitch change, and lead-lag movements using hinges and actuators. Key elements included in the assembly are the main blades, rotor hub, mast, upper and lower swashplates, swashplate actuators, flapping hinges, lead lag hinges, lead lag dampers, pitch control arms, pitch change links, drive scissor, et cetera.
Wristwatch
A mechanical wristwatch with a leather strap, and a sleek design created and animated using SolidWorks. The hand movements were intentionally desynchronized in the animation to highlight the motion of each hand. This model comprises seven components: the watch case, bezel, and crown are combined in the initial part, while each dial hand is individual, as is the watch strap parts. Additionally, a glass cover is also covering the watch face. The watch hand movements were made using motors in motion study.
