BSc Mechanical Engineering – Computer Aided Design specialization

3 Years On Campus Bachelors Program

Czech Technical University in Prague

Program Overview

Bachelors in Mechanical Engineering Computer Aided Design program at Czech Technical University in Prague. The closest match is the general Bachelor of Mechanical Engineering (3-year full-time program) at the Faculty of Mechanical Engineering (FME), which provides a strong foundation in engineering sciences like mathematics, physics, continuum mechanics, engineering materials, and production technology, suiting students interested in broad mechanical engineering with practical applications. It emphasizes core skills for solving technical problems using mathematical and physical models, without narrow specializations but with elective projects in areas like transport or energy, preparing graduates for design offices, manufacturing, and innovative teams.

Curriculum structure
Year 1
You'll kick off with a solid grounding in the basics, diving into Mathematics, Physics, and introductory Continuum Mechanics to build your problem-solving toolkit for real-world engineering challenges. These courses blend theory with hands-on tutorials and labs, helping you grasp how forces and materials behave in mechanical systems right from the start. It's the perfect launchpad if you love turning concepts into practical designs.

Year 2
Here, things get exciting as you explore Engineering Materials and Production Technology, learning how to select and process materials for durable machines while tackling mechanical design with digital tools. You'll apply physics and math from year one through projects that simulate real industry scenarios, sharpening your skills in everything from material testing to basic automation. This year bridges theory to creation, ideal for aspiring CAD enthusiasts.

Year 3
Your final year ramps up with advanced applications, including a major focus on your Bachelor Thesis (40% of the time), alongside labs and tutorials in areas like continuum mechanics and elective engineering projects. You'll master mechanical design using the latest digital tools, informatics basics, and electrical engineering essentials, culminating in teamwork on innovative solutions. Graduates emerge ready to lead in tech-driven roles.

Focus areas
Strong emphasis on core mechanical engineering without specializations: mathematics and physics at engineering level, continuum mechanics, engineering materials, production technology, and mechanical design with digital tools—perfect for CAD interests.

Learning outcomes
Graduates master theoretical/applied math/physics, mechanics of body systems/continuum mechanics, digital mechanical design, materials/technology, informatics, automation, and electrical engineering for modern practice. They solve complex technical problems and work in design, production, labs, or R&D teams.

Professional alignment (accreditation)
Accredited bachelor program at CTU FME, guaranteeing high standards in engineering education aligned with industry needs for technical positions in design offices, manufacturing, materials testing, and innovation.

Reputation (employability rankings)
CTU FME's engineering programs produce sought-after graduates for R&D, industry transfer, and roles in intelligent systems/Industry 4.0, with strong employability in mechanical design, mechatronics, and advanced manufacturing per official profiles.

Experiential Learning (Research, Projects, Internships etc.)

At Czech Technical University in Prague (CTU), the Bachelor's in Mechanical Engineering with a focus on Computer Aided Design (CAD) at the Faculty of Mechanical Engineering puts practical skills front and center, giving you hands-on experience with cutting-edge tools and real-world projects right from the start. You'll work in state-of-the-art labs equipped for design engineering, mechatronics, and advanced manufacturing, using specialized software and hardware to turn ideas into functional prototypes. This means diving into numeric simulations, sensor integration, and even experimental verification of CAD models, all while collaborating on industry-relevant challenges.

Here's what makes the experiential learning in this program stand out, drawn directly from CTU's official Faculty of Mechanical Engineering resources: these facilities and opportunities build your expertise in CAD for mechanical design:

- Advanced laboratories for design and mechatronics: Dedicated spaces for equipment design, including mechanical and optical sensors (like position sensors, pressure meters, and spectrometers), with hands-on work in miniaturization, vacuum/cryogenic applications, and integrating sensors into complex systems.
- Manufacturing technology labs: Access to cutting-edge setups for electron beam welding, laser metal deposition, and combining traditional machining with additive manufacturing—perfect for CAD prototyping and verifying designs through operational data collection.
- CAD and simulation tools: Training with computer-aided design (CAD) methods, numeric simulations for functional units, and software for scientific calculations, process simulation, and project creation—essential for mechanical engineering CAD workflows.
- Research-designated facilities: Labs focused on machine multifunctionality, reliability testing, productivity optimization, and environmental impact minimization, including experimental activities to validate CAD-based computing models.
- Group projects and collaborations: Opportunities in R&D-style theses and studies involving team-based development of devices, anti-backlash positioning, and special materials for optical or medicinal uses, mirroring industry teamwork.
- Interdisciplinary institute access: Ties to the Department of Manufacturing Technology for projects like international consortia on advanced welding and materials (e.g., 316LSi stainless steel), with excursions to partner facilities for real-world exposure.

Progression & Future Opportunities

At Czech Technical University in Prague's Faculty of Mechanical Engineering, our Bachelor's in Mechanical Engineering with a focus on Computer Aided Design (CAD) dives right into hands-on learning from day one, building real-world skills through state-of-the-art labs and tools that mirror industry standards. You'll work with advanced CAD software and simulation tools right in dedicated workshops, designing everything from machine components to mechatronic systems, while collaborating on projects that test your ideas in real manufacturing environments. This practical edge comes from facilities like specialized research labs equipped for cutting-edge tech in design, machining, and quality control, ensuring you graduate ready to innovate in mechanical engineering.

Here's a closer look at the key experiential opportunities tailored to this program::

- CAD and simulation software training: Hands-on use of industry-standard CAD methods for designing mechanical elements, integrated with numeric simulations for functionality testing, including miniaturization of optical and mechanical parts.
- Advanced laboratories for research: Access to labs focused on machine multifunctionality, combining traditional machining with additive manufacturing, laser technology, and equipment like sensors, microscopes, spectrometers, and particle detectors for experimental verification of designs.
- Group projects and R&D collaboration: Team-based theses and studies on productivity, reliability, and environmental impacts, often linking to ongoing research like electron beam welding and laser metal deposition with international partners.
- Cutting-edge manufacturing facilities: Workshops with tools for vacuum/cryogenic applications, special materials for optical/medicinal uses, and integration with control systems—perfect for group experiments in device design.
- Interdisciplinary research institutes: Involvement through the Department of Manufacturing Technology, supporting projects with global teams on advanced welding and materials science.