Mechanics and Machine Design, Program Title: Advanced Computational Mechanics

The Master’s Degree Programme in Advanced Computational Mechanics at the Cracow University of Technology offers a comprehensive curriculum designed to prepare students for expert roles in the analysis, design, and optimization of mechanical systems through advanced computational methods. This programme combines fundamental principles of mechanics with cutting-edge computational techniques, enabling graduates to address complex engineering challenges in various industries such as automotive, aerospace, manufacturing, and renewable energy. The course curriculum covers a wide range of topics including finite element analysis, multi-body dynamics, structural optimization, material modeling, and numerical methods, equipping students with the skills necessary for high-level research and development tasks. The programme emphasizes both theoretical understanding and practical application, encouraging students to engage in project-based learning, laboratory work, and simulation exercises. Students will also have opportunities to collaborate with industry partners, participate in internships, and work on innovative projects that reflect real-world problems. The programme is aimed at graduates with a background in mechanical engineering, applied mathematics, or related disciplines, and prepares them for careers in engineering consultancy, research institutes, or further academic pursuits such as doctoral studies. The faculty comprises experienced researchers and practitioners in the field of computational mechanics, ensuring that students receive mentorship from recognized experts. The Cracow University of Technology’s state-of-the-art facilities, including specialized laboratories and computer centers, provide an ideal environment for hands-on learning and research. Graduates of this programme will possess a unique blend of technical expertise, analytical skills, and practical experience, making them highly competitive in today's dynamic engineering landscape. The programme promotes lifelong learning and innovation, fostering the development of solutions that are both efficient and sustainable, contributing to technological progress and societal well-being.

The "Advanced Computational Mechanics" program at Cracow University of Technology offers a comprehensive and in-depth education in the field of mechanics and machine design, with a strong emphasis on computational techniques and modern engineering methods. This curriculum is designed to equip students with advanced knowledge and practical skills necessary to efficiently model, analyze, and solve complex engineering problems related to mechanical systems and structural mechanics.

Throughout the course, students will explore the theoretical foundations of continuum mechanics, dynamics, and finite element methods, gaining a solid understanding of how to implement numerical simulations in real-world applications. The program covers a wide range of topics including advanced material behavior, multi-physics modeling, computational fluid dynamics, and optimization techniques tailored for mechanical engineering challenges. Additionally, students will learn to utilize leading software tools and programming languages essential for high-level computational analysis, such as MATLAB, ANSYS, and Abaqus.

The program also emphasizes the integration of theoretical knowledge with practical applications, providing students with hands-on experience through laboratory exercises, project-based learning, and collaboration with industry partners. These activities are designed to develop problem-solving skills, creativity, and innovation in designing mechanical systems and analyzing their performance under various conditions.

Furthermore, students are encouraged to engage in research projects, fostering critical thinking and independent investigation into advanced topics like nonlinear mechanics, material failure analysis, and simulation of dynamic systems. Graduates of the program will be prepared for careers in research and development, engineering design, and consulting in industries such as automotive, aerospace, manufacturing, and energy. They will also possess the skills necessary for continued academic pursuit at the postgraduate level, including master’s and doctoral studies.

Overall, the Advanced Computational Mechanics program offers a rigorous curriculum that combines theoretical foundations with practical expertise, preparing students to meet the demands of modern engineering challenges and contribute to technological innovations in various engineering sectors.

Education requirements:

English Language Requirements
IELTS 5.5
Requirements
Recruitment is conducted during the entire year, however you should contact the recruitment office as early as possible, this is important for persons applying for a residential visa.
1. Persons with documented Polish descent are eligible to 30% discount on fees.
2. The Pole's Card (Karta Polaka) holders and EU citizens can apply for studies:
according to the rules other than applicable to Polish citizens (studies on a tuition fee basis) - recruitment is conducted by International Relations office, please refer to the University's website and send all necessary documents.
according to the rules aplicable to Polish citizens - recruitment is conducted by DSS at CUT, please refer to the University's website and send all necessary documents.

Funding for the "Advanced Computational Mechanics" program at the Cracow University of Technology is primarily supported through a combination of student tuition fees, governmental grants, and institutional funds. Tuition fees are set according to university regulations and vary depending on the student's nationality and the specific agreements in place. The university offers various scholarship opportunities to both domestic and international students, including merit-based scholarships, need-based financial aid, and international mobility grants, which can substantially reduce the financial burden on students.

Additionally, the university actively participates in national and European research and development projects, which sometimes include funding opportunities for postgraduate students engaged in research activities related to computational mechanics, finite element analysis, and related fields. These projects often provide stipends or stipendiary support to graduate students working under the supervision of faculty members involved in externally funded research initiatives.

Furthermore, students enrolled in the program may access support through university partnerships with industry, which sometimes offer joint funding, internships, or sponsored research opportunities. The Cracow University of Technology also encourages students to apply for external scholarships and grants provided by governmental agencies, EU programs, and international organizations dedicated to engineering education and research.

Graduate students may also benefit from part-time employment opportunities within the university, such as research assistantships or teaching assistant positions, which provide a supplemental income and practical experience in the field of mechanics and machine design. These employment opportunities are often awarded based on academic performance and availability of positions.

Finally, some students may opt for loans or financial mechanisms offered by third-party financial institutions, although these are not directly managed or endorsed by the university itself. Overall, the financial support system is designed to facilitate access to high-quality education in computational mechanics, enabling students to focus on academic and research excellence while alleviating financial concerns through a diverse array of funding sources.

Advanced Computational Mechanics at Cracow University of Technology is a specialized postgraduate program designed to equip students with advanced knowledge and skills in the field of theoretical and applied mechanics, focusing on computational methods. This program aims to prepare engineers and researchers to solve complex problems related to mechanical systems, structures, and materials using sophisticated computational tools and numerical techniques.

The curriculum includes a comprehensive study of continuum mechanics, structural analysis, finite element methods, and numerical modeling. Students gain practical experience through projects and collaborations with industry, enabling them to apply theoretical knowledge to real-world engineering problems. The program emphasizes the development of skills in programming, simulation, and data analysis, which are essential for research and development in mechanical engineering.

Participants in the program have opportunities to work with modern software packages used in the industry, learn about the latest advances in computational mechanics, and develop innovative solutions for design optimization, failure analysis, and dynamic behavior of mechanical systems. The program fosters a strong research component, encouraging students to engage in scientific investigations, contribute to publications, and participate in conferences.

Graduates of Advanced Computational Mechanics are well-prepared for careers in research and development departments of manufacturing companies, engineering consultancy firms, and academic institutions. They may also pursue doctoral studies to deepen their expertise in specialized areas of computational mechanics. The program is often conducted in collaboration with industry partners and research centers, providing students with valuable networking opportunities and practical training in cutting-edge technologies.

The program is designed to be flexible to accommodate students’ diverse backgrounds, often incorporating modules in additional disciplines such as materials science, automation, and control systems. By bridging theoretical knowledge with practical application, the program seeks to produce highly competent professionals capable of tackling the technological challenges of the modern engineering world through innovative mechanical design and advanced computational techniques.