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3 Years On Campus Bachelors Program
Turku University of Applied SciencesThe Mechanical Engineering program at Turku University of Applied Sciences combines practical engineering expertise with sustainable design thinking, preparing you to solve real-world technological challenges while creating environmentally responsible solutions. Whether you're passionate about product development, machine automation, or sustainable innovation, this degree equips you with the skills to launch a rewarding career in a field with strong global demand.
Curriculum Structure
First Year: Engineering Foundations
Your first year establishes the technical foundation essential for mechanical engineering success. You'll develop strong competencies in core mathematics and physics through courses like Calculus and Engineering Mechanics, while simultaneously building practical skills in Technical Drawing and 3D Modelling. These foundational modules ensure you have both the theoretical knowledge and hands-on capabilities needed to progress into more specialized mechanical engineering topics.
Second Year: Professional Engineering & Design
In your second year, you'll deepen your technical expertise while introducing design-centered thinking into your engineering skillset. You'll study Material Science for Mechanical Engineering, Production Technology, and explore the creative dimensions of engineering through User-centered Design Approach and Visualization, Prototyping and Ideation. This year bridges the gap between pure engineering theory and real-world application, helping you understand how to design products that are both technologically sound and user-focused.
Third Year: Specialization & Professional Application
Your final year focuses on specialization and practical application through your Internship (30 ECTS) and Bachelor's Thesis (15 ECTS). During this period, you'll apply everything you've learned in a professional setting, gaining invaluable work experience while completing a substantial thesis project that demonstrates your engineering capabilities to employers.
Focus Areas
Sustainable Design Engineering — the core specialization pathway that combines sustainability principles, creative design methodology, and practical engineering skills.
Learning Outcomes
Graduates develop comprehensive professional competencies including machine automation expertise, product development knowledge, and the ability to design sustainable solutions that address real organizational and societal needs. You'll be equipped with strong mechanical engineering fundamentals, practical problem-solving skills, and the innovative thinking required for competitive career advancement.
Professional Alignment
The program is structured to meet the evolving demands of modern industry, with particular emphasis on the technological and design expertise that employers actively seek. The curriculum emphasizes work-life orientation, combining theoretical knowledge with professional practice through real-life projects, practical training components, and industry-relevant case studies.
Reputation & Employability
Career prospects for mechanical engineers are particularly strong, with global demand driven by climate change challenges and the need for sustainable engineering solutions. Graduates pursue diverse professional roles including Product Development Engineer, Design Engineer, Sustainability Engineer, Project Manager, and Operations Engineer.
At Turku University of Applied Sciences, our Mechanical Engineering Bachelor's program dives right into hands-on learning, where you'll build real-world skills in sustainable design, machine automation, and product development through practical exercises and teamwork right from the start. You'll work in our modern learning environments, including cutting-edge laboratories and workshops, plus versatile spaces designed for group projects and independent study—perfect for turning ideas into actual prototypes and solutions. This working life-oriented approach means you'll tackle real assignments from companies, sharpening your expertise while building valuable networks.
Here's what makes our experiential learning stand out, all tailored to the Mechanical Engineering program:
- 30 ECTS internship: Gain on-the-job experience through mandatory practical training with industry partners, applying your skills directly in professional settings.
- Group projects and company assignments: Solve real challenges from businesses as teamwork projects, like the Sustainable Development Project (SUSTIS, 3 ECTS) or Innovation Project (10 ECTS), fostering creative collaboration.
- CAD and digital design tools: Master industry-standard software through courses like Designer CAD 1 (3 ECTS), Designer CAD 2 (5 ECTS), Technical Drawing and 3D Modelling (5 ECTS), and Digital Visualization (5 ECTS).
- Prototyping and advanced labs: Hands-on work in prototyping labs via courses such as Visualization, Prototyping and Ideation (7 ECTS) and Prototyping (5 ECTS), using workshops for materials science, production technology, and structural mechanics.
- Specialized facilities: Access our state-of-the-art laboratories and workshops in the Faculty of Engineering at the Turku campus (ICT-City, Joukahaisenkatu 3), supporting everything from machine elements design to life cycle assessment.
At Turku University of Applied Sciences, our Mechanical Engineering Bachelor's program dives right into hands-on learning from day one, building real-world skills through practical exercises, teamwork, and projects straight from industry partners. You'll work in our state-of-the-art cutting-edge laboratories and workshops, plus versatile spaces designed for group collaboration and independent problem-solving, all focused on creating sustainable solutions like product design and machine automation. This working life-oriented approach means you're not just studying theory—you're applying it in modern environments that mirror professional settings on our Turku campus.
Here's what makes our experiential learning stand out, tailored to Mechanical Engineering:
- 30 ECTS Internship: Gain essential professional experience through mandatory internships with companies, building networks and expertise via real practical assignments.
- Teamwork and Group Projects: Plenty of collaborative project work, including the SUSTIS Sustainable Development Project (3 ECTS) and Innovation Project (10 ECTS), where you solve company briefs in creative teams.
- Specialized CAD and Design Software/Tools: Hands-on with Designer CAD 1 (3 ECTS), Designer CAD 2 (5 ECTS), Technical Drawing and 3D Modelling (5 ECTS), and Digital Visualization (5 ECTS) for prototyping and ideation.
- Advanced Labs and Workshops: Access to facilities for Production Technology (5 ECTS), Material Science for Mechanical Engineering (5 ECTS), Prototyping (5 ECTS), and Visualization/Prototyping spaces supporting sustainable design engineering.
- Practical Field-Relevant Assignments: Courses like User-centered Design Approach (5 ECTS), Heat and Electricity (5 ECTS), and Design for Circular Economy (5 ECTS) involve real-world exercises in modern learning environments.
General eligibility: Must have a secondary school diploma equivalent to Finnish upper secondary education (12 years).Selection system: Admission is through Finnish joint application or rolling admission (first-come basis if eligible).IB Diploma: Accepted as qualification for certificate-based admission.A Levels: Accepted as equivalent qualification (subject relevance considered).Alternative test (OMPT): Minimum ~55% score accepted as a maths-based admission route.Documents required: Passport/ID, transcripts, diploma, and official test scores submitted via Studyinfo or application portal.IELTS Academic: Minimum 6.0 overall required. TOEFL iBT: Minimum 60 score required.India (CBSE/ICSE): Must have Class 12 (preferably with Mathematics and science subjects) equivalent to Finnish requirements.China: Must have a recognised high school diploma giving eligibility for higher education.USA (SAT): Minimum 400 (Reading & Writing) + 400 (Math) required for SAT-based admission.Product Development EngineerDesign EngineerSustainability EngineerOperations EngineerProduction EngineerQuality EngineerMechanical EngineerTechnical Sales EngineerPurchasing EngineerEntrepreneurProject Manager
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