Graduate Mechanical Engineer

Roles and responsibilities

Responsibilities

• Graduate level understanding of Engineering practices, design methods and calculations
• Ability to comprehend and interpret technical information applicable to their discipline of engineering
• Demonstrates the application of theory in a practical context
• Graduate level of competence in the application of standards, processes and procedures and how they are used in work execution
• Graduate level of knowledge of regulatory framework and associated legislation.
• Graduate level of competence in own discipline in the execution of assigned tasks.
• Graduate level of knowledge of industry and technology development within discipline area
• Ability to comprehend, interpret and prepare applicable technical information and suggest design changes to ensure functional and cost effective results
• Demonstrates awareness of policies and procedures that affect specific job assignments
• Ability to prepare accurate, effective, complete and easily understood written communications and reports
• Good level of general computer literacy and basic familiarity with some relevant specialist engineering software
  

Qualifications

• Fresh graduate with a Mechanical Engineering degree
• Excellent command of the English language (both written and verbal)
• Well adept in utilizing MS Office
• Good communication, reporting and presentation skills
• Mechanical Design: Assisting in the design and analysis of mechanical components and systems.
• Manufacturing Processes: Understanding various manufacturing techniques and materials selection.
• Energy Systems: Basic knowledge of energy systems and thermodynamics applications.
• Maintenance and Reliability: Familiarity with maintenance practices to enhance system reliability.
• Research and Development: Supporting R&D initiatives by conducting experiments and analyzing data.

Desired candidate profile

1. Technical Knowledge: Understanding of mechanical engineering principles, including thermodynamics, fluid mechanics, and materials science.

2. Design Skills: Familiarity with CAD software (e.g., SolidWorks, AutoCAD) for creating and modifying engineering drawings and models.

3. Problem-Solving: Ability to analyze problems, identify solutions, and implement changes effectively.

4. Basic Project Management: Understanding of project planning, time management, and resource allocation.

5. Communication Skills: Effective verbal and written communication skills for collaborating with team members and presenting ideas.

6. Attention to Detail: Precision in design and analysis, ensuring accuracy in calculations and specifications.

7. Team Collaboration: Ability to work well within a team environment, contributing to group projects and initiatives.

8. Testing and Validation: Knowledge of testing procedures to validate designs and ensure performance meets specifications.

9. Adaptability: Willingness to learn new skills and adapt to evolving technologies and methodologies.

10. Mathematical Proficiency: Strong foundation in mathematics, particularly in calculus, algebra, and statistics.

Areas of Expertise

• Mechanical Design: Assisting in the design and analysis of mechanical components and systems.
• Manufacturing Processes: Understanding various manufacturing techniques and materials selection.
• Energy Systems: Basic knowledge of energy systems and thermodynamics applications.
• Maintenance and Reliability: Familiarity with maintenance practices to enhance system reliability.
• Research and Development: Supporting R&D initiatives by conducting experiments and analyzing data.