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Automobile Technical Maintenance
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Summary of the Profile
General Description:
Objective(s) of a study programme:
The objective of the study programme is to prepare automobile technical maintenance specialists with analytical thinking who:
• Have professional knowledge and understanding enabling them to solve the challenges of land transport engineering study area, analyse engineering problems and select proper methods for their solution, evaluate the impact of engineering solutions to society and the environment, comply with professional ethics and engineering activity standards;
• Have knowledge about the peculiarities of land transport elements, internal combustion engines, electrical and hybrid technologies, mechanical, hydraulic and pneumatic systems, vehicles and their technical maintenance;
• Are able to select engineering solutions and means as well as technological equipment, necessary for designing, organization, control and performance of vehicle and its unit diagnostics, maintenance and repair technological process according to the defined requirements;
• Are erudite persons, able to think creatively and critically, and maintain their professional competence throughout their lives.
Learning outcomes:
Knowledge, its application (A):
A1 Know and understand the general regularities and laws of mathematics, physical and/or technological sciences, mechanics, materials science, electronics and information technology, allowing to understand the processes taking place in the field of transport engineering sciences;
A2 Know the essential concepts of the field of transport engineering sciences and understand their content;
A3 Have basic and up-to-date transport engineering knowledge about the structures of vehicles and machines, their principles of operation and operation, structural and operational materials, which would be applied in practice;
A4 Become familiar with the principles of digital manufacturing, cloud manufacturing processes, business management systems and augmented reality, understanding the multi-directionality of transport engineering sciences and the possibilities for engineering solutions and technologies;.
Special (engineering analysis and design) skills (B):
B1 Be able to analyze processes and products of the study field of transport engineering sciences,
understand and interpret the results obtained;
B2 Be able to solve engineering problems by selecting appropriate methods, experimental and
production equipment, process their results and present practical conclusions of these results;
B3 Understand design methodologies, be able to apply specialized software for
process analysis and data management, designing processes and products of the chosen study field of engineering sciences in accordance with the established technical, economic and
environmental requirements;
Research and practical skills (C):
C1 Be able to find the necessary information, systematize and interpret it, solving transport engineering problems, combining elements of theory and practice;
C2 Be able to perform the necessary experiments to solve engineering tasks, analyze the results obtained and present conclusions;
C3 Have skills in working with equipment, practically solving problems in the field of transport engineering sciences;
C4 Be able to work in working groups and cooperate with specialists from other professional activities,
implementing projects in the field of transport engineering sciences, taking into account the principles of circular economy, artificial intelligence, industrial digitalization, ethical, environmental, commercial, operational organization, occupational safety and health
and the development of the concept of sustainability;
Personal (decision-making, lifelong learning, collaboration and teamwork) skills (D):
D1 Be able to solve engineering problems individually and in a team, understand the impact of engineering decisions on society and the environment, adhere to professional ethics and engineering standards, and understand responsibility for the results of engineering activities;
D2 Be able to communicate with the engineering community and the general public in correct Lithuanian and at least one foreign language;
D3 Develop lifelong learning skills, realizing the importance of personal and professional development;
D4 Be familiar with the main aspects of project implementation and management at the engineering level.
Activities of teaching and learning:
Student-centered teaching using advanced teaching and learning methods: traditional lectures, problem-based teaching, interactive lectures, laboratory and practical work, consultations, group work, internships, application of specialist software, etc.
Methods of assessment of learning achievements:
Framework:
Study subjects (modules), practical training:
General Subjects of College Studies (15 credits) :
Foreign language 1, Philosophy / Sociology, Law,
Foreign language 2, Professional communication /
Business ethics.
Core and Compulsory Subjects (111 credits):
Mathematics 1, Physics, Information Technologies,
Automobile Structure, Fundamentals of Electrical Engineering, Engineering Graphics, Engineering Materials, Physics, Information Technologies, Automobile Structure, Fundamentals of Electrical Engineering, Engineering Graphics, Engineering Materials, Mathematics 2, Mechanics,
Introductory Training, Technical Measurements,
Automobile Theory, Exploitation Materials, Engines
Automobile Electrical and Electronic Devices, Hydraulics and Pneumatics, Computer-Aided Drawing, Engine Fuel Systems, Optional subject
Automobile Maintenance 1, Semester Work 1, Optional subject Automobile Repair Technologies, Equipment Design, Automobile Maintenance 2, Semester Work 2, Business Economics and Management, Optional subject Final Thesis, Environment and Human Safety,
Practical training and internships (30 credits): Training Practice 1, Training Practice 2, Automobile Service Technology Internship, Professional Activity Internship, Final Internship.
Specialisations (15 credits):
1. Car Technical Maintenance:
Automobile Diagnostics and Information Systems, Car Maintenance, Companies and Their Technological Design, Motorcycles and
Other Vehicles, Electric Cars and Hybrid Technologies;
2. 2. Commercial Vehicle Technical Maintenance: Automobile Diagnostics and Information Systems, Cargo Vehicle Maintenance, Companies and Their
Technological Design, Cargo Vehicle Structure and
Maintenance, Special Purpose Vehicles and Their Maintenance;
3. Sports Car Preparation And Maintenance: Sports Car Maintenance and Diagnostics, Technological Design of Sports Car, Production and Repair Companies, Sports Car Structure and Homologation, Design of Sports Cars and Units;
4. Electric and Hybrid Car Technical Maintenance:
Electric and Hybrid Car Diagnostics and Information Systems, Electric and Hybrid Car Maintenance, Companies and Their Technological Design, Electric Vehicles and their Infrastructure, Electric and Hybrid Power Systems.
Optional courses (9 credits).
Distinctive features of a study programme:
This study programme is oriented towards practical activities with its curriculum being based on the real working environment needs.
Studies are implemented in a concentrated and intensive way, practical skills are formed in modern labs, such as the modern LIK Bosch training center, LIK Automobile service JSC “Tobis” wheel repair laboratory, modern “Volkswagen” automobile structure laboratory, LIK Racing powered by KTK Racing Division team also transport and sport car preparation and maintenance companies with up-to-date technologies, such as Kaunas sport club “Juta Racing”.
Access to professional activity or further study:
Access to professional activity:
Graduates who have completed a Bachelor's degree in Automotive Transport Engineering will be able to work in companies that perform repair and maintenance services for cars, cargo vehicles and sports cars, in their departments and other companies that require transport engineering engineers and technicians; also manage and organize activity for service station, vehicle inspection center, automotive transport company or department.
Access to further study:
Graduates have access to the second cycle studies (Master’s degree) at university. If they choose this study programme, students have the opportunity to study under the Erasmus + student mobility programme in higher education institutions in Austria, Check Republic, Denmark, Estonia, Latvia, Poland, Germany, Hungary, Malta, Portugal and Turkey, as well as to perform Erasmus+ training in foreign companies
