Course title, code: Introduction to the Metal Forming, GAGEBAL-BEVAKEPL-1

Name and type of the study programme: Computer science engineering, BSc
Curriculum: 2021
Number of semester consultation hours: 16
Credits: 4
Theory: 0 %
Practice: 0 %
Recommended semester: 5
Study mode: correspondence
Prerequisites:
Evaluation type: exam
Course category:
Language: english
Responsible instructor: Dr. Béres Gábor József
Instructor(s):
Course objectives:
The aim of the Introduction to Plastic Deformation course is to familiarize mechanical engineering students with the relationship between the microstructure of metals and their mechanical properties, as well as to provide practical knowledge about material forming technologies, their characteristics, applications, and fundamental knowledge necessary for related plastic deformation and processing technologies.
Course content:

Acquired competences:
Knowledge:

Comprehensively understands the basic facts, directions, and limits of the technical field. Knows the general and specific mathematical, natural, and social science principles, rules, relationships, and procedures necessary for practicing the technical field. At the applied level, knows the requirements and expectations of work and fire safety, security technology, and occupational health in relation to their field, as well as relevant environmental regulations. Comprehensive understanding of the fundamentals, limits, and requirements of logistical, management, environmental, quality assurance, information technology, legal, and economic areas associated with mechanical engineering.

Skills:

Capable of identifying routine professional problems, uncovering the theoretical and practical background necessary to solve them, formulating and solving them (with the practical application of standard operations). Able to understand and use characteristic literature, computational, and library resources of their field. Capable of directing and controlling technical manufacturing processes while keeping elements of quality assurance and quality control in mind. Able to diagnose mechanical failures, select corrective operations, and solve repair tasks. Capable of applying and enforcing safety, fire safety, and hygiene rules and regulations during work.

Attitude:

In complex or unexpected decision-making situations, makes decisions taking into full account legal regulations and ethical norms. Possesses appropriate perseverance and monotony tolerance for performing practical activities. Open and receptive to new, modern, and innovative procedures and methods related to ecological management and health awareness. Adheres to and enforces relevant safety, health, environmental, quality assurance, and control requirements during work.

Autonomy and responsibilities:

Identifies shortcomings in applied technologies, risks in processes, and initiates measures to reduce them. Keeps track of legal, technical, technological, and administrative changes related to the field. Under the guidance of workplace leaders, directs the work of assigned personnel, supervises the operation of machinery and equipment. Shares experiences with colleagues, thereby assisting in their development. Takes responsibility for technical analyses and proposals formulated based on them.

Additional professional competences:


Requirements, evaluation, grading:
Mid-term study requirements:

Exam requirements:

Study aids, laboratory background:

Compulsory readings:

[4]     4James F. Shackelford: Introduction to Materials Science for Engineers, 2005

Recommended readings: