Mechanical Engineer Entry-Level

Mohammad Hussain

Phone: 313-***-**** Email: ********@*****.***

Objective:

I am a passionate Mechanical Engineer with practical skills in automotive, mechatronics, automation, and robotics, looking for an entry-level opportunity to utilize academic training and support engineering projects. Education:

University of Michigan

Bachelor of Science in Engineering - Mechanical Engineering Graduated: December 2024

Languages:

• Fluent: Urdu & English

• Proficient: Punjabi

• Basic Proficiency: Spanish

Skills:

• Proficient in software tools: Arduino, AutoCAD, Catia, LabVIEW, MATLAB, Rhino, SolidWorks, Simulink

• Strong analytical and problem-solving abilities

• Excellent understanding of mechanical principles and engineering concepts

• Detail-oriented with a high level of accuracy in design and analysis

• Effective communication skills, both written and verbal Projects:

Line-Following Robot University of Michigan

• Programmed a robot using H-Bridge motor drivers and integrated distance, touch, and line sensors for autonomous movement.

• Utilized Arduino microcontrollers for speed control and sensor data processing.

• Applied control systems to enhance path-following accuracy. Wrist Brace Development University of Michigan

• Designed and prototyped a wrist brace to improve joint stability for individuals with arthritis and Ehlers Danlos Syndrome (EDS) using CAD modeling and 3D printing.

• Developed and tested neoprene-based fabric braces, utilizing industrial sewing techniques to enhance fitness, comfort, and manufacturability.

• Led material research, selecting polyurethane foam for its balance of rigidity, durability, and adaptability, and analyzed its mechanical properties through physical testing.

• Ensured L3908 and ISO 10993-1:2018 compliance by selecting hypoallergenic materials and optimizing ergonomic design. High Performance Brake System University of Michigan

• Designed a braking system for a 1985 Lamborghini Countach LP5000S QV, achieving >96% efficiency and preventing rear wheel lockup.

• Developed brake rotors (300 mm front, 279 mm rear), dual piston calipers, and lightweight pistons using SolidWorks for CAD modeling.

• Analyzed braking dynamics, proportional curves, and axle weight distribution using MATLAB. Festo Mechatronics & Automation Lab University of Michigan

• Designed pneumatic systems with Festo Meclab PLCs, automating tasks using relays and programmable logic control.

• Implemented closed-loop control for speed regulation and data acquisition.

• Applied LabVIEW for data acquisition and system monitoring. WOT Performance Analysis University of Michigan

• Simulated and analyzed acceleration, gear shifts, and torque curves to optimize vehicle performance.

• Utilized MATLAB and Simulink to model engine behavior, gear ratios, and speed time relationships.

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