Virtotechnology: Virtualization of Foundry Engineering

The Virtualization of Foundry Engineering program at AGH University of Science and Technology is an innovative and interdisciplinary course designed to equip students with advanced knowledge and practical skills in the digital transformation of foundry processes. This program focuses on the integration of virtual technologies such as computer-aided design (CAD), computer-aided manufacturing (CAM), computer-aided engineering (CAE), and virtual reality (VR) to optimize and enhance traditional foundry operations. Students will learn how to utilize simulation software to model casting processes, predict and analyze potential defects, and improve material utilization and energy efficiency. The curriculum combines theoretical foundations in metallurgy, materials science, and mechanical engineering with hands-on training in state-of-the-art digital tools and software applications.

Throughout the program, participants gain insights into the entire lifecycle of foundry products, from initial design to final production, emphasizing virtual prototyping and process optimization. The program also covers adaptive manufacturing techniques, the role of automation and robotics, and the implementation of Industry 4.0 principles within foundry environments. Practical workshops, project-based learning, and collaborations with industry partners ensure that students are well-prepared for real-world challenges and innovations in the field.

Graduates of the Virtualization of Foundry Engineering program will be capable of working in research and development, process engineering, quality control, and manufacturing management roles. They will be able to leverage cutting-edge virtual tools to improve production efficiency, reduce costs, and increase product quality in foundry industries. The program aims to foster innovative thinking, technical expertise, and a forward-looking approach necessary for the evolving landscape of metallurgical and manufacturing engineering. Overall, this program prepares students to be leaders in the digital transformation of foundry industries, contributing to sustainable and efficient manufacturing practices through virtualization and smart technologies.

The Virtotechnology: Virtualization of Foundry Engineering program at AGH University of Science and Technology offers students a comprehensive education in the innovative field of digital modeling and virtualization applied to foundry processes. This interdisciplinary program is designed to equip future engineers with the advanced skills necessary to optimize, analyze, and simulate foundry operations using state-of-the-art virtual technologies. Throughout the course of study, students delve into core topics such as materials science, metallurgical processes, computer-aided design (CAD), finite element method (FEM) simulations, and virtual prototyping. The program emphasizes practical training with modern software tools and simulation platforms, enabling students to develop virtual models of casting processes, mold design, and thermal analysis, which significantly improve efficiency and reduce costs in actual foundry operations.

Students learn to analyze the complex behavior of molten metals, solidification patterns, and potential defects through virtual environments before implementing physical production, thereby minimizing waste and increasing safety. The curriculum integrates theoretical lectures with laboratory exercises, workshops, and project-based learning, fostering essential skills in problem-solving, critical thinking, and innovative application of virtualization technologies. Additionally, the program explores emerging trends such as Industry 4.0, digital twins, and automation in manufacturing, preparing graduates for leadership roles in modern, smart foundries.

The interdisciplinary nature of the program also encourages collaboration across fields such as computer science, materials engineering, and mechanical engineering, ensuring graduates are versatile and highly competitive in the global job market. With access to AGH University’s advanced laboratories and research centers, students participate in cutting-edge research projects that contribute to the development of sustainable and efficient foundry solutions. Upon graduation, students are well-prepared for careers in foundry design, process optimization, research and development, or further academic pursuits. The Virtotechnology: Virtualization of Foundry Engineering program aims to create innovative engineers capable of transforming traditional manufacturing practices through digital transformation, ultimately leading to safer, more sustainable, and economically efficient foundry industries.

Education requirements:


Candidates are asked to attach to the e-Rekrutacja system the following documents:

Scan of the
passport page with your photo and personal data
.

Scan of
signed Curriculum Vitae
.

Scan of signed cover letter (
template HERE
), in which a candidate is obliged to show special predispositions to study at the chosen programme of study.

Scan of the
official certificate
confirming your command of the
language of instruction
(Polish or English) – list of recognised English certificates
HERE
.

Scan of the
higher education diploma

with legalization (or apostille)
with
annotation
(or as a separate document) stating, that the diploma entitles to apply for admission to second-cycle degree programmes at universities of every type in the country in which you received the above mentioned diploma.

Scan of the
official transcript of records with scale of grades
included, confirmed by the University.

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Want to improve your English level for admission?

Prepare for the program requirements with English Online by the British Council.

• ✔️ Flexible study schedule
• ✔️ Experienced teachers
• ✔️ Certificate upon completion

📘 Recommended for students with an IELTS level of 6.0 or below.

Enroll in the course

The financing of the Virtotechnology: Virtualization of Foundry Engineering program at AGH University of Science and Technology typically includes a combination of sources aimed at supporting students financially throughout their studies. Tuition fees are the primary component, with the exact amount varying depending on whether the student is a Polish citizen or an international student. Polish students often benefit from the subsidized education system, which subsidizes a significant portion of the tuition costs, making higher education more accessible. International students, on the other hand, generally pay higher tuition fees, which are set by the university each academic year and are designed to reflect the costs of delivering the program, including specialized lab facilities and software.

In addition to tuition fees, students may have access to various forms of financial aid such as scholarships, grants, and student loans. Scholarships at AGH University are awarded based on academic achievement, extracurricular involvement, and financial need. There are also departmental scholarships specific to certain faculties, including those that support students in technical and engineering fields. Students can apply for government or regional grants designed to promote higher education participation, especially among students from underrepresented or disadvantaged backgrounds.

Moreover, some students may secure sponsorships from industry partners, particularly companies involved in virtualization technologies, foundry engineering, or related fields. These sponsorships often cover tuition costs or provide stipends in exchange for internships, research cooperation, or future employment commitments. AGH University also provides information about loans and flexible payment options, which help students plan their finances throughout the duration of their studies.

Apart from financial support, students are encouraged to seek part-time employment opportunities both on and off-campus. The university's career services and counseling centers provide assistance in finding internships, part-time jobs, and cooperative education placements, which not only supplement students' income but also enhance their practical skills and employability after graduation.

Overall, the funding structure of the Virtotechnology program is designed to make specialized education accessible through a variety of financial resources, enabling students to focus on their academic and professional development without undue financial burden. The exact details and eligibility criteria for each type of financial support can be obtained from the AGH University admissions office and scholarship offices, ensuring transparency and support tailored to students' needs.

Virtotechnology: Virtualization of Foundry Engineering at AGH University of Science and Technology offers a comprehensive approach to integrating digital technologies into traditional foundry processes. The program is designed to equip students with advanced knowledge and skills in virtual prototyping, simulation, and digital manufacturing, focusing on innovative solutions for metal casting industries. Throughout the course, students explore key topics such as computer-aided design (CAD), computer-aided manufacturing (CAM), finite element analysis (FEA), and virtual reality (VR) applications tailored to foundry engineering. The curriculum emphasizes practical skills, enabling students to develop virtual models of casting processes, optimize production workflows, and reduce costs through digital simulations. Students learn to utilize specialized software tools that simulate melting, pouring, cooling, and solidification of metals, providing a safe and efficient environment for process experimentation. The program encourages interdisciplinary collaboration, combining insights from mechanical engineering, materials science, computer science, and industrial engineering, to foster innovative problem-solving skills. An important component of the program is hands-on training, including laboratory exercises and project work, where students apply theoretical knowledge to real-world scenarios. Internships collaborations with industry partners offer students valuable practical experience and insights into current technological trends and challenges faced by foundries. Graduates of this program will be prepared for careers in digital foundry design, process optimization, quality control, and technological research. They will be capable of working in R&D departments, manufacturing plants, or as consultants specializing in virtual foundry engineering solutions. The degree aims to bridge the gap between traditional metallurgy and modern digital technology, contributing to more sustainable, efficient, and innovative manufacturing practices in the metal casting industry.