Robotics and Mechatronics Engineering Student

Truong Minh Phu

Robotics and Mechatronics Engineer Student

083******* **************@*****.*** https://www.linkedin.com/in/phutruong26/ Tan Phu, Ho Chi Minh City CAREER OBJECTIVE

As a final-year student specializing in Robotics and Mechatronics, I am actively pursuing internship opportunities that allow me to apply my skills in engineering design, problem-solving, and project management, while also exploring the realm of technical support. I aim to gain practical experience in both areas, honing my abilities and contributing effectively to projects. With a keen interest in research and development, I am committed to continuous learning and seek mentorship to enhance my proficiency. This internship signifies the commencement of my professional journey, where I aspire to offer innovative solutions and further develop my skill set in the dynamic fields of robotics, mechatronics, and technical support. EDUCATION

RMIT University September 2018 -

June 2024 (expected)

Bachelor of Robotics and Mechatronics Engineering

Current GPA: 3.5/4

PROJECT

Trebuchet Design and Construction

Sample Image: https://shorturl.at/cuzFQ

Responsibilities:

• Led the design and construction team in developing a functional trebuchet capable of launching a ping-pong ball over 5 meters using two 500g weights.

• Collaborated with team members to divide the trebuchet into two main components: the base tower and arms, ensuring ease of design and construction.

• Designed and oversaw the fabrication process of various trebuchet parts using Laser Cutter and 3D Printer technologies.

• Conducted research on trebuchet design theories and methodologies, including conservation of energy principles and projectile motion analysis.

• Calculated and optimized key parameters such as mass ratio, arm length ratio, and pivot height to maximize trebuchet performance.

• Developed an action plan outlining the step-by-step process for achieving project objectives, including determining basic parameters and selecting appropriate manufacturing methods.

• Assembled and tested the trebuchet components, ensuring proper functionality and adherence to design specifications. Achievements:

• Successfully designed and constructed a fully functional trebuchet capable of launching a ping-pong ball over 5 meters, meeting project requirements.

• Implemented innovative solutions, such as using ball bearings to reduce friction and maximize efficiency in the trebuchet mechanism.

• Demonstrated strong leadership and teamwork skills throughout the project, facilitating effective collaboration and problem-solving among team members.

• Produced comprehensive documentation, including 2D drawings and a project report detailing the design, construction, and testing processes.

• Presented the completed trebuchet project to stakeholders, showcasing its performance and highlighting the team's achievements. Design and Analysis of Wind Turbine Mechanical System Sample Image: https://shorturl.at/npAES

Responsibilities:

• Conducted a comprehensive analysis of mechanical components within a wind turbine system, including shafts, gearboxes, bearings, and brakes.

• Utilized mechanical theories to determine the dimensions and arrangement of components to optimize performance and reliability.

• Developed conceptual designs for the main shaft, high-speed shaft, gearbox, and brake system.

• Calculated loads, stresses, deflections, and critical speeds of shafts under various operating conditions.

• Selected appropriate materials and dimensions for shafts, keys, bearings, and gears based on design requirements.

• Assessed bearing life expectancy and performed fatigue analysis to ensure long-term reliability.

• Designed disc brakes with considerations for stopping power, wear, and friction coefficients.

• Collaborated with team members to integrate mechanical designs into the overall wind turbine system. Achievements:

• Successfully designed a wind turbine mechanical system capable of efficiently converting wind energy into electricity.

• Optimized component dimensions and materials to ensure reliability and durability under varying operational conditions.

• Implemented innovative solutions, such as inverted compound gear trains, to achieve desired gear ratios and alignment.

• Conducted thorough analysis and testing to verify the performance and safety of the designed mechanical system.

• Contributed to the advancement of renewable energy technology by developing a robust and efficient wind turbine design Plastic Bottle Mold Design

Demo video: https://shorturl.at/cTWX3

Responsibilities:

• Collaborated with team members to reverse engineer a plastic bottle design using Solidworks.

• Designed molds for the blow molding process, ensuring compatibility with PET material shrinkage coefficient.

• Selected appropriate tools and developed G-code for CNC machining of mold components.

• Optimized tool paths to minimize machining time and improve efficiency.

• Documented choice of tools, machining time estimates, and references following IEEE style.

• Communicated progress and challenges to team members and supervisor. Achievements:

• Successfully designed molds for a plastic bottle manufacturing process, meeting project requirements and deadlines.

• Implemented innovative strategies to optimize tool paths, resulting in significant reductions in machining time.

• Contributed to the development of a comprehensive project document detailing the design process and outcomes.

• Demonstrated effective teamwork, communication, and problem-solving skills throughout the project. CERTIFICATIONS

COMPLETING Introduction to Python Mar 2023

HONORS & AWARDS

Outstanding academic performance in Semester 2019-B: https://shorturl.at/ruADQ Oct 2019 SKILLS

Comunication idea sharing, concept explaning, feedback, active listening, presentation Adaptability play different role in the team (leader, supporter, technical, tester), optimism Problem solving Analysis, logical reasoning, decision making © topcv.vn

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