Mechanical Engineering

Module aim

To teach understand the structure of mechanisms and machines, kinematic and dynamic processes in them, in preparing to studies of modern machinery and equipment.

Module description

Concepts of machine and mechanism. Structure of linkage mechanisms, their metric synthesis, graphical and grapho analytical kinematics. Classification of cam mechanisms, dimension calculation, the profile synthesis. Gear mechanisms, gear and their design. Machine dynamics. Flywheel design for the machine. Mechanisms balancing. 5 laboratory works. Course project. Exam.

Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time.

Module aim

To introduce basics of probability theory and mathematical statistics, to train a student to use obtained knowledge for solving of real world problems.

Module description

The basic probability theory concepts and theorems. The distribution functions of random variables and numerical characteristics. The problems of mathematical statistics. Empirical characteristics. The point and interval estimates of unknown parameters. Statistical hypothesis testing, elements of correlation theory, regression.

Students must attend at least 60% of the time scheduled practical works, 80% of the time scheduled laboratory works (full-time studies and part-time, distance learning studies) and 50% of the lectures (only full-time studies).

Module aim

To provide the theoretical knowledge of mechanics of materials and knowledge of engineering calculation methods of simply deformed structural elements. To train up the potency of application of these methods by oneself. To develop the potency to analyse the mechanical peculiarities of loaded structural elements and problems of its reliability and rationality. To prepare for the studies of engineering calculations of the compound loaded structures.

Module description

Subject of the mechanics of materials, general assumptions, hypothesis, concepts. Tension and compression. Structural composed of axially loaded straight rods. Statically indeterminate structures. Geometrical properties of cross sections. Shearing. Torsion. Bearing stresses. Strength and stiffness of beams. Mechanical properties of materials, experimental methods for investigation of material properties. Students must attend at least 70% of the time scheduled practical exercises and 100% laboratory works. Theoretical lectures are mandatory for first-cycle I-III year full-time students. More than half of the lectures must be attended during the semester.

Module aim

To provide knowledge about the metal materials structure and formation processes, the selection and properties modify of steels and non-ferrous metals and its alloys, their thermal, thermochemical and thermo-mechanical treatment processes.

Module description

The materials selecting criteria and metallic materials grouping system studied in the module. Crystalline structure of materials and diffusion process. Real and deformed metal structure, recrystallization. Materials crystallization and alloys phase diagrams. The structure and phase transformations of Fe-C alloys. Carbon and alloyed structural steels. Corrosion and degradation of materials. Non-ferrous metals and its alloys. Thermal, thermochemical and thermo-mechanical treatment of metals.
Students are required to attend at least 50 percent of lectures (continuous studies stage I and integral studies I and II courses), at least 80 percent of laboratory work.

Module aim

Sketch drawing, means of dimensivining, material marking in drawings. Demountable and non-demountable joints, types of srews, viewing and marking of screws, screw fastening elements. Assemblies drawings and their drawing order. Understanding and detailing of assembly drawings. Specification. Viewing of springs, gears, gear and chain trains. Kinematics diagrams. Marking of surface machining types in the drawings. Tolerances and fits.

Module description

Sketch drawing, means of dimensivining, material marking in drawings. Demountable and non-demountable joints, types of srews, viewing and marking of screws, screw fastening elements. Assemblies drawings and their drawing order. Understanding and detailing of assembly drawings. Specification. Viewing of springs, gears, gear and chain trains. Kinematics diagrams. Marking of surface machining types in the drawings. Tolerances and fits.
Students are required to attend at least 80% of the practical and laboratory classes at the scheduled time during the semester. Mandatory minimum attendance of module lectures – 50%.

Module aim

To help students develop linguistic and communicative skills, acquire knowledge according to CEFR B2 – C1 level in order to communicate spontaneously both in written and spoken forms on daily, cultural and professional topics.

Module description

The course covers an important aspect of academic language study relevant to all subject areas. The aim of the course is to reach a high (B2-C1) level of English to study in an academic institution. The course is aimed at the first-cycle students with B1-B2 level of English. The integrated skills course will develop students’ reading, writing, listening and speaking skills in an academic context. It will enable students to prepare assignments, write a research paper in English. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

The aim of the course to familiarize students with the features of various text styles (administrative and scientific), teach to choose and apply appropriate methods of writing a text; to form skills of academic writing, to teach to apply formal requirements of an academic written assignment appropriately; to teach to present references accurately, use quotations, to compile a list of the cited references and sources.

Module description

While studying the subject, students are introduced to the concept of a business text, structure of the text. The similarities and differences of the academic and administrative styles, general principles governing the construction of texts and writing strategies are discussed. Different peculiarities of academic text writing are taught, various language devices of written assignments., citing and paraphrasing techniques, formal stylistic and linguistic requirements of documents and other written assignments, business communication in social media are discussed. Participation in at least 60% of the scheduled exercises is mandatory and at least half of the lectures at the scheduled times

Module aim

To help students develop linguistic and communicative skills, acquire knowledge according to CEFR B2 – C1 level in order to communicate spontaneously both in written and spoken forms on daily, cultural and professional topics.

Module description

The course covers an important aspect of academic language study relevant to all subject areas. The aim of the course is to reach a high (B2-C1) level of French to study in an academic institution. The course is aimed at the first-cycle students with B1-B2 level of French.The integrated skills course will develop students’ reading, writing, listening and speaking skills in an academic context. It will enable students to prepare assignments, write a research paper in French. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

To reveal the main problems of philosophy of technology and to cultivate the skills for good orientation in the flow of contemporary technogenic dynamics.

Module description

The course provides the concept of technology and the overview of the characteristics of its development. Students are introduced to the sources of the philosophy of technology as a discipline, to the specific features of its emergence and further development. The course provides the most important periods of history of technology, in order to highlight the essential dependency between the development of technology, its concept and the changing of the attitude to technology. Students are introduced to the most famous theories of technology, developed by such authors as E. Kapp, F. Dessauer, J. Jaspers, M. Heidegger, J. Ellul, H. Skolimowsky, D. Bell, E. Toffler, A. Huning, H. Schelsky, G. Ropohl, H. Lenk, F. Rapp. Technology is analysed and interpreted from ontological, epistemological, anthropological, axiological thinking perspective. The course discusses the main challenges to human beings, it also examines actual problems of technology.
Students must attend at least 60 percent of the seminars and at least half of the lectures at the scheduled times

Module aim

To help students develop linguistic and communicative skills, acquire knowledge according to CEFR B2-C1 level in order to communicate spontaneously both in written and spoken forms on daily, cultural and professional topics.

Module description

The course covers an important aspect of academic language study relevant to all subject areas. The aim of the course is to reach a high (B2-C1) level of German to study in an academic institution.The course is aimed at the first-cycle students with B1-B2 level of German.The integrated skills course will develop students’ reading, writing, listening and speaking skills in an academic context. It will enable students to prepare assignments, write a research paper in German. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

Introduction to machine elements and various joints of them.

Module description

Machine elements. The criteria of operation. Joints of elements. Welded, pressed, riveted, glued joints. Thread, wedge-shaped, splined, pin joints (connections). Friction drives. Belt drives. Gear drives: cylindrical and conical gear drives. Worm gear drives. Shafts, bearings, couplings, sealing and lubricating equipment. Laboratory works. The course project.

Students must participate in at least 75% of the lectures, exercises and complete at least 75% of the laboratory work in the scheduled time.

Module aim

To get acquainted with the theory and practice of measurements. General knowledge of the technologies required in
mechanical engineering. knowledge of the laws of engineering mechanics, the principles of applied mechanics, designing of
mechanisms, appliances, devices and apparatus, mathematical methods and laws applicable for description, analysis and
designing of the objects of production in mechanical engineering.

Module description

Rudiment of metrology and measurement theory. The principles of statistical measurement theory. Transformation of
measurement signals. Measuring instruments and methods. Measurement of process parameters.

Module aim

To provide knowledge of engineering methods for calculation strength and stiffness of structural elements subjected to compound stresses. To train up the potency of application of these methods by oneself. To develop the potency to analyse the mechanical peculiarities of structural elements under specific loadings. To prepare for the studies of the mechanics of various structures.

Module description

Deflection of beams. Techniques for determining beam displacements. Statically indeterminate beams. States of stress and strain. Strength and plasticity hypothesis. Strength of structural elements under compound stresses. Stresses in a thin-walled pressure vessels. Stress concentration. Contact stresses. Stability of columns. Buckling. Influence of dynamic loadings. Variable stresses. Fatigue. Brittle fracture of cracked elements. Experimental investigations of stress and strain of elements subjected to various loadings. Students must attend at least 70% of the time scheduled practical exercises and 100% laboratory works. Theoretical lectures are mandatory for first-cycle I-III year full-time students. More than half of the lectures must be attended during the semester.

Module aim

Implementation of modern 3D systems for geometric form generation, construction parameters analysis and preparation of computer aided manufacturing.

Module description

Overview of computer aided design and manufacturing. Computer aided design (CAD) and computer aided manufacturing (CAM) components, hardware and software. Concept of CAD: three-dimensional (3D) modeling, virtual modeling, integrated quality control. Interface between CAM and CAD. Fundamentals of CAM. Computer aided engineering.

Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time.

Module aim

To acquire knowledge about traditional mechanical and non-traditional and innovative materials processing technologies.
Form the ability to correctly select materials and production technologies, to get to know some of the processing operations
in practice.

Module description

Materials processing technologies: cutting (turning, milling, drilling, counterboring, countersinking, reaming, tapping, broaching), additive technologies (3D printing), machining by abrasion (grinding, finishing, modern abrasion processes
(ultrasonic machining, abrasive jet machining, abrasive waterjet machining, magnetic abrasive machining, machining by
erosion (electrochemical machining, laser beam machining, electron beam machining, plasma beam machining, EDM).
Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations.

Module description

The course is targeted at the development of Mechanics Faculty students’ C1 level of the English Language competences, for further development of skills gained in the course English Language for communication in both daily and Professional situations. The course develops the independent user’s language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations.

Module description

The course is targeted at the development of Mechanics Faculty students’ C1 level of the French Language competences, for further development of skills gained in the course French Language for communication in both daily and Professional situations. The course develops the independent user’s language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills.

Module aim

To help students acquire and develop linguistic and professional communicative skills as well as relevant knowledge so that the future specialists are able to use their acquired competences and analyse information, communicate in spoken and written language in their everyday, academic and Professional situations.

Module description

The course is targeted at the development of Mechanics Faculty students’ C1 level of the German Language competences, for further development of skills gained in the course German Language for communication in both daily and Professional situations. The course develops the independent user’s language skills, professional vocabulary, the correct technical and scientific language usage knowledge, abilities to analyse and summarize speciality literature, effective academic presentation skills. Participation in at least 60% of the scheduled exercises is mandatory. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

Course aims to provide students with a comprehensive understanding of control systems and their application, with a focus on analysis, design, and implementation using tools such as Matlab and Simulink, in order to prepare them for careers in engineering and related fields.

Module description

The course provides students with an introduction to control systems and their application using tools such as Matlab and Simulink. It covers topics such as feedback control, system stability, and different types of control systems, including open-loop and closed-loop systems. The student will be able to describe automatic control systems in both time and frequency domains using tools like differential equations, Laplace transform, transfer function, and frequency response. The course emphasizes the analysis and design of control systems, including techniques such as root locus, Bode plots, and Nyquist criteria, which can be implemented using Matlab and Simulink. Students are expected to work on practical projects and assignments, applying the concepts and techniques learned in class to real-world problems using Matlab and Simulink. Advanced topics such as state-space representation, optimal control, and adaptive control are also covered, with emphasis on their implementation using Matlab and Simulink. By the end of the course, students should have a solid understanding of the principles and techniques of automatic control and be able to apply them to a wide range of engineering problems.Students must attend at least 70 percents of practical and 70 percents of laboratory lectures at the sheduled times.

Module aim

To provide basic knowledge of engineering solutions for economic justification; to prepare specialists able to flexibly apply the theoretical and practical economic knowledge in the adoption and support of alternative engineering solutions.

Module description

Engineering solutions, economic justification of the course introduces the fundamental concepts of engineering and economic principles. In more detail the production process and presents the cost / cost, cost and profit and raising its capabilities. Considered the main project performance evaluation methods in choosing the optimal solution for the implementation of an alternative. Introduction to engineering solutions commercialization opportunities with emphasis on environmentally sustainable development issues.
Students must attend at least 60 % of the time scheduled exercises.

Module aim

To provide knowledge about non-destructive joining technologies, their application possibilities, to familiarize with the processes and equipment.

Module description

The Module provides knowledge about different non-destructive joining technologies used in industry. Different welding methods are analyzed: gas welding, consumable-electrode manual arc welding, gas-shielded arc welding (MIG, MAG, TIG), submerged arc welding, resistance welding and special welding methods (laser welding, electron-beam welding, plasma-arc welding, ultrasonic welding and other methods). Knowledge about metallic and non-metallic materials, soldering and brazing, bonding is provided. Different processes are presented as well as information on joints control. Participation in laboratory works in all scheduled exercises is mandatory.

Module aim

To gain basic knowledge and competence in electronics

Module description

Develop knowledge about electronic fundamentals, operation principles of the rectifiers, amplifiers, operational amplifiers, logic circuits, triggers, sensors and other basic electronic devices.
Students must complete at least 80% of the laboratory work during the scheduled time;
Students must complete all scheduled laboratory work.

at least half of the lectures at the scheduled times

Module aim

To provide knowledge of processes which take place in metal cutting zone, conventional metal cutting methods, modern metal cutting tools, their design, geometry and materials.

Module description

The module provides information about processes which take place in metal cutting zone, about basic metal cutting tools, their types, design and geometrical parameters, about materials used for cutting part of metal cutting tools.

Module aim

The aim of this module is to give knowledge for students about liquids’ equilibrium and flow laws and their application for practice calculations; introduce theoretic fundamentals of thermal properties of building envelopes, building heat balance and thermodynamical evaluation of energy systems.

Module description

Physical properties of fluids. Euler’s equation. Hydrostatic pressure, the pressure force. Fundamentals of fluid flow. Bernoulli’s equations. Laminar and turbulent flow in pipes. Hydraulics loss. Computation of pipeline systems.
The engineering thermodynamics and heat transfer material covers the basic concepts, heat and work, energy conservation law, cycles, water vapour and humid air, heat exchangers, heat pump.
Students must participate more than half of the lectures, participate in at least 60% of exercises and complete all laboratory work.

Module aim

Learn the rational use of material and energy resources in the design of new products that their operation would have the lowest impact on the environment, using the minimum amount of energy.
To get knowledge about automation of technical systems and processes, to learn to analyze, to choose and to design the means of automation.

Module description

The material properties of ecological assessment. Clean production process for the design of new facilities. Material and energy cost reduction in the production process. Device design optimization, reducing their performance and recovery costs. Understanding of the technical system, and the human role in it. Participation in laboratory works in all scheduled exercises is mandatory.
Understanding about technical system and human role in it. Social result of automation. Automation influence to technologic processes. Peculiarities of design of technologic processes. Robots and their role in manufacturing. Automation of technologic processes.

Module aim

To prepare the specialist which according to drawings of machine parts and their specifications would rightly understand processes of their production and itself could create, select, and improve technological processes of their production thanks to which quality of a machine and its parts would be achieved with a minimal cost.

Module description

Production and technological processes, operations, their division to separate parts. Machine as production object. Specifications of a machine and its parts, their research, methods of quality assurance. Design and rating of technological process of parts production. Evaluation of effectiveness of technological process Processes plans for production of machine parts of different types. Documentation of technological processes. Creation of operation programs.

Module aim

To provide knowledge of the principles of operation of wind power plants, the peculiarities of their structures, the opportunities of their use in various conditions and their integration in common energy supply systems as well as the trends of their evolution.

Module description

Wind origin and characterization. Aerodynamic grounds of wind power plant work. Types of wind power plants and particularities of their exploitation.. Generators and energy transmission of wind power plants. Control systems of wind power plants. Connection of wind power plants to energy supply system. Estimation of hydroresources. Transformation of water stream energy to mechanical one. Hydroturbines. Generators and control equipment of hydro power plants. Hydro power plant connection to common electrical grid. Participation in practical works at least 60% of scheduled exercises is mandatory.

Module aim

To get acquainted with the bio-energy technologies, their impact on the environment. To be able to evaluate and optimize the use of biomass and biofuels in particular situation.

Module description

Energy resources, their prevalence and need. Situation in environmental. Biomass and biofuel properties and raw materials used in their production. Technology biomass and biofuel production. Energy production technology from biomass. Bioenergy environmental impact. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To give knowledge about terms of quality and indexes, systems, control of quality, administration of quality and quality of marketing. To determine what is dependence between quality of product and price.

Module description

Conception of quality, prime rates of quality. Terms and descriptions. System of quality and its structure. Requirements and principles of quality system. Control of quality, administration of quality. Methods of quality control. Planning and organization of quality control. Methods of productions presentation for control. Internal audit of quality, its organization and planning. Methodology of quality audit. Concepts and terms of marketing. Requirements of quality for marketing. Quality of marketing. Price of quality and its optimization. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To get acquainted with methods of the design of machines and instruments, allowing to get required force and speed characteristics of the machine, with designing of precise mechanisms, mechanism of summing of motions, traction mechanisms, particularities of mechanisms of instruments. Develop skills to apply this knowledge to the selection of main machine and instrument components and assemblies.

Module description

Machine design process. Selection of motors. Methods of design of drives. Design of gear boxes. Design of spindles, using various bearings: sliding bearings (hydrodynamic type, hydrostatic type), rolling bearings. Design of summing of motions mechanisms, traction mechanisms. Particularities of design of instruments.

Module aim

To form basis of methodological knowledge for organization management, and educate capabilities to apply an acquired knowledge in examining real professional situations.

Module description

During the course the following topics are covered: essence of management, basic concepts and their interpretations, evolution of management theories, cyber management model: subject and object of management. There is analyzed organization as a system (systemic view application), types of organizations, elements and environment of organization, establishment of organizations and organization’ management types of structures. Also there are analyzed functions of management: planning, organizing, leadership and controlling, administrative and economic as well as psychological methods of management, manager role in the system of organization management, management’ decisions’ preparation and adoption principles, pay systems and motivation. There are disputed change and conflict management. Students must attend at least 60% of the exercises according to the timetable.

Module aim

Learn the rational use of material and energy resources in the design of new products that their operation would have the lowest impact on the environment, using the minimum amount of energy.
To get knowledge about automation of technical systems and processes, to learn to analyze, to choose and to design the means of automation.

Module description

The material properties of ecological assessment. Clean production process for the design of new facilities. Material and energy cost reduction in the production process. Device design optimization, reducing their performance and recovery costs. Understanding of the technical system, and the human role in it. Participation in laboratory works in all scheduled exercises is mandatory.
Understanding about technical system and human role in it. Social result of automation. Automation influence to technologic processes. Peculiarities of design of technologic processes. Robots and their role in manufacturing. Automation of technologic processes.

Module aim

To prepare the specialist which according to drawings of machine parts and their specifications would rightly understand processes of their production and itself could create, select, and improve technological processes of their production thanks to which quality of a machine and its parts would be achieved with a minimal cost.

Module description

Production and technological processes, operations, their division to separate parts. Machine as production object. Specifications of a machine and its parts, their research, methods of quality assurance. Design and rating of technological process of parts production. Evaluation of effectiveness of technological process Processes plans for production of machine parts of different types. Documentation of technological processes. Creation of operation programs.

Module aim

To introduce to the structure of environmental protection equipment usable for cleaning polluted air and sewage as well as the peculiarities of its designing. To be able to develop a project of environmental protection equipment for elimination of environmental pollution from the zone of a technological process and to neutralize the pollution.

Module description

The biosphere and its pollution. Equipment for dry and wet cleaning of mechanical and chemical pollutes. Air cleaning filters. Smoke gas cleaning filters. Mechanical sewage cleaning equipment. Equipment for sewage treatment by chemical and physical methods. Membrane technologies. Biological treatment equipment.

Module aim

To introduce to equipment for tracking and efficient use of energy and to teach assessing their efficiency

Module description

Ways of efficient use of energy. Renewable sources of energy. Equipment and systems consuming solid, liquid and gas fuel. Equipment for minimizing losses of tracking electric and heating energy and its efficient use. Liquid and gas tracking equipment. The principles of operation of tracking equipments and their structures

Module aim

To give knowledge about terms of quality and indexes, systems, control of quality, administration of quality and quality of marketing. To determine what is dependence between quality of product and price.

Module description

Conception of quality, prime rates of quality. Terms and descriptions. System of quality and its structure. Requirements and principles of quality system. Control of quality, administration of quality. Methods of quality control. Planning and organization of quality control. Methods of productions presentation for control. Internal audit of quality, its organization and planning. Methodology of quality audit. Concepts and terms of marketing. Requirements of quality for marketing. Quality of marketing. Price of quality and its optimization. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To get acquainted with methods of the design of machines and instruments, allowing to get required force and speed characteristics of the machine, with designing of precise mechanisms, mechanism of summing of motions, traction mechanisms, particularities of mechanisms of instruments. Develop skills to apply this knowledge to the selection of main machine and instrument components and assemblies.

Module description

Machine design process. Selection of motors. Methods of design of drives. Design of gear boxes. Design of spindles, using various bearings: sliding bearings (hydrodynamic type, hydrostatic type), rolling bearings. Design of summing of motions mechanisms, traction mechanisms. Particularities of design of instruments.

Module aim

To form basis of methodological knowledge for organization management, and educate capabilities to apply an acquired knowledge in examining real professional situations.

Module description

During the course the following topics are covered: essence of management, basic concepts and their interpretations, evolution of management theories, cyber management model: subject and object of management. There is analyzed organization as a system (systemic view application), types of organizations, elements and environment of organization, establishment of organizations and organization’ management types of structures. Also there are analyzed functions of management: planning, organizing, leadership and controlling, administrative and economic as well as psychological methods of management, manager role in the system of organization management, management’ decisions’ preparation and adoption principles, pay systems and motivation. There are disputed change and conflict management. Students must attend at least 60% of the exercises according to the timetable.

Module aim

Learn the rational use of material and energy resources in the design of new products that their operation would have the lowest impact on the environment, using the minimum amount of energy.
To get knowledge about automation of technical systems and processes, to learn to analyze, to choose and to design the means of automation.

Module description

The material properties of ecological assessment. Clean production process for the design of new facilities. Material and energy cost reduction in the production process. Device design optimization, reducing their performance and recovery costs. Understanding of the technical system, and the human role in it. Participation in laboratory works in all scheduled exercises is mandatory.
Understanding about technical system and human role in it. Social result of automation. Automation influence to technologic processes. Peculiarities of design of technologic processes. Robots and their role in manufacturing. Automation of technologic processes.

Module aim

To prepare the specialist which according to drawings of machine parts and their specifications would rightly understand processes of their production and itself could create, select, and improve technological processes of their production thanks to which quality of a machine and its parts would be achieved with a minimal cost.

Module description

Production and technological processes, operations, their division to separate parts. Machine as production object. Specifications of a machine and its parts, their research, methods of quality assurance. Design and rating of technological process of parts production. Evaluation of effectiveness of technological process Processes plans for production of machine parts of different types. Documentation of technological processes. Creation of operation programs.

Module aim

Acknowledge with design schemes, materials, use, calculation and design of tools and devices, theory of their quality achievement.

Module description

Design of cutting tools. Calculation and design of specialized cutting-edged tools. Characteristics and use of abrasive tools. Design schemes of specialized devices, their use, design elements of devises, calculation and design of devices, accuracy securing.

Module aim

To provide knowledge of the principles of operation of various machines for energy transformation, the peculiarities of their structures, the opportunities of their use in various branches of industry and their integration in technological processes as well as the trends of their evolution.

Module description

Heating systems using solar energy. Photo electricity and solar power plants. Wind power plants. Theory of flow machines. Steam and gas turbines. Hydraulic turbines. Thermodynamic processes bound with gas compression. Piston, rotary, screw compressors. Turbine compressors. The physical basics of creation of low temperatures. Compression refrigerating machines. Gas absorption refrigerating machines. Thermoelectric refrigerating equipment.

Module aim

To give knowledge about terms of quality and indexes, systems, control of quality, administration of quality and quality of marketing. To determine what is dependence between quality of product and price.

Module description

Conception of quality, prime rates of quality. Terms and descriptions. System of quality and its structure. Requirements and principles of quality system. Control of quality, administration of quality. Methods of quality control. Planning and organization of quality control. Methods of productions presentation for control. Internal audit of quality, its organization and planning. Methodology of quality audit. Concepts and terms of marketing. Requirements of quality for marketing. Quality of marketing. Price of quality and its optimization. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To get acquainted with methods of the design of machines and instruments, allowing to get required force and speed characteristics of the machine, with designing of precise mechanisms, mechanism of summing of motions, traction mechanisms, particularities of mechanisms of instruments. Develop skills to apply this knowledge to the selection of main machine and instrument components and assemblies.

Module description

Machine design process. Selection of motors. Methods of design of drives. Design of gear boxes. Design of spindles, using various bearings: sliding bearings (hydrodynamic type, hydrostatic type), rolling bearings. Design of summing of motions mechanisms, traction mechanisms. Particularities of design of instruments.

Module aim

To form basis of methodological knowledge for organization management, and educate capabilities to apply an acquired knowledge in examining real professional situations.

Module description

During the course the following topics are covered: essence of management, basic concepts and their interpretations, evolution of management theories, cyber management model: subject and object of management. There is analyzed organization as a system (systemic view application), types of organizations, elements and environment of organization, establishment of organizations and organization’ management types of structures. Also there are analyzed functions of management: planning, organizing, leadership and controlling, administrative and economic as well as psychological methods of management, manager role in the system of organization management, management’ decisions’ preparation and adoption principles, pay systems and motivation. There are disputed change and conflict management. Students must attend at least 60% of the exercises according to the timetable.

Module aim

Implementation of modern 3D systems for geometric form generation, construction parameters analysis and preparation of computer aided manufacturing.

Module description

Overview of computer aided design and manufacturing. Computer aided design (CAD) and computer aided manufacturing (CAM) components, hardware and software. Concept of CAD: three-dimensional (3D) modeling, virtual modeling, integrated quality control. Interface between CAM and CAD. Fundamentals of CAM. Computer aided engineering.

Students must participate in at least 75% of the exercises and complete at least 75% of the laboratory work in the scheduled time.

Module aim

Learn the rational use of material and energy resources in the design of new products that their operation would have the lowest impact on the environment, using the minimum amount of energy.
To get knowledge about automation of technical systems and processes, to learn to analyze, to choose and to design the means of automation.

Module description

The material properties of ecological assessment. Clean production process for the design of new facilities. Material and energy cost reduction in the production process. Device design optimization, reducing their performance and recovery costs. Understanding of the technical system, and the human role in it. Participation in laboratory works in all scheduled exercises is mandatory.
Understanding about technical system and human role in it. Social result of automation. Automation influence to technologic processes. Peculiarities of design of technologic processes. Robots and their role in manufacturing. Automation of technologic processes.

Module aim

To teach how to analyze, improve and develop instrumentations schemes. To be able to evaluate sources of errors, compose the theoretical balance of errors and apply the errors compensation methods. To teach how evaluate metrological and design characteristics of modern measuring devices and to use their advantage. Prepare professionals for self-dealing of the instrumentation selection, development and optimal appliance of it in the conditions of research and production.

Module description

Introduction to the subject matter of the issues. Measurement areas. Metrological aspects of quality. Accuracy of measurement processes and devices. Analysis of device errors, their sources and minimization of errors. Units of instruments. Measuring devices for the geometrical sizes. Length and angle, shape and position, specific surface measuring gauges. Precision mechanical and mechatronic, laser measuring devices. Instruments for measurements of material condition and environment. Automated measurement techniques. Algorithms. Measurement of the technological processes. Design of measuring processes and it structural schemes. Comparing analysis of metrological characteristics of devices. The principles and functional characteristics of high-precision measuring instruments and machines, applying into industry and criteria for the selection for production.

Module aim

To give knowledge about terms of quality and indexes, systems, control of quality, administration of quality and quality of marketing. To determine what is dependence between quality of product and price.

Module description

Conception of quality, prime rates of quality. Terms and descriptions. System of quality and its structure. Requirements and principles of quality system. Control of quality, administration of quality. Methods of quality control. Planning and organization of quality control. Methods of productions presentation for control. Internal audit of quality, its organization and planning. Methodology of quality audit. Concepts and terms of marketing. Requirements of quality for marketing. Quality of marketing. Price of quality and its optimization. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To prepare the specialist which according to drawings of machine parts and their specifications would rightly understand processes of their production and itself could create, select, and improve technological processes of their production thanks to which quality of a machine and its parts would be achieved with a minimal cost.

Module description

Production and technological processes, operations, their division to separate parts. Machine as production object. Specifications of a machine and its parts, their research, methods of quality assurance. Design and rating of technological process of parts production. Technological processes for production of machine parts of different types. Documentation of technological processes.

Module aim

To get acquainted with methods of the design of machines and instruments, allowing to get required force and speed characteristics of the machine, with designing of precise mechanisms, mechanism of summing of motions, traction mechanisms, particularities of mechanisms of instruments. Develop skills to apply this knowledge to the selection of main machine and instrument components and assemblies.

Module description

Machine design process. Selection of motors. Methods of design of drives. Design of gear boxes. Design of spindles, using various bearings: sliding bearings (hydrodynamic type, hydrostatic type), rolling bearings. Design of summing of motions mechanisms, traction mechanisms. Particularities of design of instruments.

Module aim

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Module description

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Module aim

Practical-of work with mechanism, engineering, management and control skills attainment and development.

Module description

Vocational practice is doing after thirth course. Term – 8 weeks. Department is formulated places of practicians and is made projects. With faktorys, its structure, using mechanism, constructions of machines and producible production are met practical, skills of practical work are got. Material is gathered for final work. Account to project of ptactice is written in the end. Marking – Report.

Module aim

To acquire basic knowledge about the physical nature of radiation and geothermal energy, possibilities of use and modern technologies. To form the ability to calculate energy flows, overlays, losses. Get acquainted with future perspectives. Understand the importance of clean energy and develop positive provisions for the preservation of the natural environment. Students must attend at least 70 per cent of the seminars and at least half of the lectures at the scheduled times

Module description

The energy balance and imbalance of the Earth. Renewable and non-renewable energy sources. The sun is on the Earth’s energy source. Radiation energy absorption and transformation techniques. Solar batteries. Solar collectors. Geothermal energy of the earth. Earth and surface energy technologies. Energy supply technologies for buildings. Heat pumps. Energy Saving Technologies. Energy storage technologies. Future energy prospects and research directions. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

Teach students to program CNC machine tools using G and M code language.

Module description

The module provides information about modern computer numerical control (CNC) turning and machining centers, familiarizes with G and M codes, CNC programming methods and principles. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

Formulation of the Final Work tasks and title.

Module description

According to the selected subject and specialization is developed the structure of the Final Work. The task of Final Work is prepared the special literature is studied, variability analysis of prototips is in process and analogs are analyzed.

Module aim

Practical-of work with mechanism, engineering, management and control skills attainment and development.

Module description

Vocational practice is doing after thirth course. Term – 8 weeks. Department is formulated places of practicians and is made projects. With faktorys, its structure, using mechanism, constructions of machines and producible production are met practical, skills of practical work are got. Material is gathered for final work. Account to project of ptactice is written in the end. Marking – Report.

Module aim

Learn to prepare the initial data for the design, to design environmental equipment, adapting it to the production technology.

Module description

Materials used in environmental equipment and basic requirements for their construction. Calculations of technological, structural parameters and process modeling of contaminate air and waste water treatment equipments. The main technology used in the manufacture of this type equipment. Site preparation of project documentation.

Module aim

Teach students to program CNC machine tools using G and M code language.

Module description

The module provides information about modern computer numerical control (CNC) turning and machining centers, familiarizes with G and M codes, CNC programming methods and principles. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

Formulation of the Final Work tasks and title.

Module description

According to the selected subject and specialization is developed the structure of the Final Work. The task of Final Work is prepared the special literature is studied, variability analysis of prototips is in process and analogs are analyzed.

Module aim

Practical-of work with mechanism, engineering, management and control skills attainment and development.

Module description

Vocational practice is doing after thirth course. Term – 8 weeks. Department is formulated places of practicians and is made projects. With faktorys, its structure, using mechanism, constructions of machines and producible production are met practical, skills of practical work are got. Material is gathered for final work. Account to project of ptactice is written in the end. Marking – Report.

Module aim

Knowledge about process of machines and instruments design: methods of design of base members, guides. Knowledge about programmable machines. Ability to design programmable equipment. Develop skills to apply this knowledge to the selection of the main components and assemblies of machines and instruments.

Module description

To get acquainted with methods of the design of base parts of machines and instruments, guides. To get acquainted with the programmed automation – the structure, constituent parts, control principles of CNC type machines. To get acquainted with the design principles of robots as a programmable equipment. To get acquainted with functional mechanisms of instruments.

Module aim

Teach students to program CNC machine tools using G and M code language.

Module description

The module provides information about modern computer numerical control (CNC) turning and machining centers, familiarizes with G and M codes, CNC programming methods and principles. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

Formulation of the Final Work tasks and title.

Module description

According to the selected subject and specialization is developed the structure of the Final Work. The task of Final Work is prepared the special literature is studied, variability analysis of prototips is in process and analogs are analyzed.

Module aim

Practical-of work with mechanism, engineering, management and control skills attainment and development.

Module description

Vocational practice is doing after thirth course. Term – 8 weeks. Department is formulated places of practicians and is made projects. With faktorys, its structure, using mechanism, constructions of machines and producible production are met practical, skills of practical work are got. Material is gathered for final work. Account to project of ptactice is written in the end. Marking – Report.

Module aim

Knowledge about process of machines and instruments design: methods of design of base members, guides. Knowledge about programmable machines. Ability to design programmable equipment. Develop skills to apply this knowledge to the selection of the main components and assemblies of machines and instruments.

Module description

To get acquainted with methods of the design of base parts of machines and instruments, guides. To get acquainted with the programmed automation – the structure, constituent parts, control principles of CNC type machines. To get acquainted with the design principles of robots as a programmable equipment. To get acquainted with functional mechanisms of instruments.

Module aim

To introduce the informational systems of measuring. To teach how to analyze the informational systems of measuring devices and complexes;, knowledge of the signal characteristics and their random processes. Teach the use of information systems benefits into automated geometrical sizes measurements of the industry.

Module description

Introduction of information systems, applying for measuring complexes; classification. Modeling and optimization. Structure, functional elements, sensors, changing of measured values. Measuring signal presentation. Determined processes and signal characteristics. Stochastic processes and their probability characteristics. Discrete signals. Measuring information systems into machine tools. Measuring of rough parts and geometric parameters of product. Information about the status of machines and tools. Active control systems. Informational systems of measurement geometrical dimensions. Measuring information systems consisting of autonomous instrumentation. Optoelektronic informational systems of measurements.

Module aim

Formulation of the Final Work tasks and title.

Module description

According to the selected subject and specialization is developed the structure of the Final Work. The task of Final Work is prepared the special literature is studied, variability analysis of prototips is in process and analogs are analyzed.

Module aim

To introduce a student with the peculiarities of the scientific style, the requirements for the terms, the principles of terms regulation, the regularities of Professional language, To teach to write and edit a scientific text.

Module description

Standard language: its functional styles and substyles. Written and spoken language. Public and non-public language. Special and professional language. Terms as the basis of a professional language. Structural characteristics and parameters of a scientific text. Composition of a scientific text. Linguistic analysis of final works for the Bachelor`s and Master`s Degree. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

To introduce a student with the peculiarities of the scientific style, the requirements for the terms, the principles of terms regulation, the regularities of Professional language, To teach to write and edit a scientific text.

Module description

Standard language: its functional styles and substyles. Written and spoken language. Public and non-public language. Special and professional language. Terms as the basis of a professional language. Structural characteristics and parameters of a scientific text. Composition of a scientific text. Linguistic analysis of final works for the Bachelor`s and Master`s Degree. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

The aim of the course is to introduce the theoretical and practical aspects, issues and applications of public communication.

Module description

Public Communication course aims to introduce personal branding, corporate communication, communication with clients and internal communication, the students who have chosen studies of engineering sciences, computer sciences, technology sciences, mathematics sciences. Students learn how to present themselves and their ideas, better speak in public, to make good and convincing points, to better use the internet and social media for their professional goals, also to understand cross-cultural communication. The importance of media channels, messages and communication to target audiences are also introduced in the course. Through practical tasks for personal branding, students will learn how to adopt public ethics, protocol standards. In this course an approach of learning by doing is combined with theoretical analysis and students’ self-reflection. The practical part of the course consists of active participation in discussions during different exercises, case studies as well as preparation and presentation of public speeches and presentations.
Participation in at least 60% of the scheduled exercises is mandatory

Module aim

To introduce a student with the peculiarities of the scientific style, the requirements for the terms, the principles of terms regulation, the regularities of Professional language, To teach to write and edit a scientific text.

Module description

Standard language: its functional styles and substyles. Written and spoken language. Public and non-public language. Special and professional language. Terms as the basis of a professional language. Structural characteristics and parameters of a scientific text. Composition of a scientific text. Linguistic analysis of final works for the Bachelor`s and Master`s Degree. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

The aim of the course is to introduce the theoretical and practical aspects, issues and applications of public communication.

Module description

Public Communication course aims to introduce personal branding, corporate communication, communication with clients and internal communication, the students who have chosen studies of engineering sciences, computer sciences, technology sciences, mathematics sciences. Students learn how to present themselves and their ideas, better speak in public, to make good and convincing points, to better use the internet and social media for their professional goals, also to understand cross-cultural communication. The importance of media channels, messages and communication to target audiences are also introduced in the course. Through practical tasks for personal branding, students will learn how to adopt public ethics, protocol standards. In this course an approach of learning by doing is combined with theoretical analysis and students’ self-reflection. The practical part of the course consists of active participation in discussions during different exercises, case studies as well as preparation and presentation of public speeches and presentations.
Participation in at least 60% of the scheduled exercises is mandatory

Module aim

To introduce a student with the peculiarities of the scientific style, the requirements for the terms, the principles of terms regulation, the regularities of Professional language, To teach to write and edit a scientific text.

Module description

Standard language: its functional styles and substyles. Written and spoken language. Public and non-public language. Special and professional language. Terms as the basis of a professional language. Structural characteristics and parameters of a scientific text. Composition of a scientific text. Linguistic analysis of final works for the Bachelor`s and Master`s Degree. Participation in at least 60% of the scheduled exercises is mandatory.

Module aim

The aim of the course is to introduce the theoretical and practical aspects, issues and applications of public communication.

Module description

Public Communication course aims to introduce personal branding, corporate communication, communication with clients and internal communication, the students who have chosen studies of engineering sciences, computer sciences, technology sciences, mathematics sciences. Students learn how to present themselves and their ideas, better speak in public, to make good and convincing points, to better use the internet and social media for their professional goals, also to understand cross-cultural communication. The importance of media channels, messages and communication to target audiences are also introduced in the course. Through practical tasks for personal branding, students will learn how to adopt public ethics, protocol standards. In this course an approach of learning by doing is combined with theoretical analysis and students’ self-reflection. The practical part of the course consists of active participation in discussions during different exercises, case studies as well as preparation and presentation of public speeches and presentations.
Participation in at least 60% of the scheduled exercises is mandatory

Module aim

To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them

Module description

Calculation correction, selection of the schemes and the workflow. In design final works are made 4 of A1 size drawings – general view, assembly drawings of separate mechanisms and drawings of parts. In technological final works are made 4 of A1 size schemes of the technological processes and economical evaluation.

Module aim

To acquire practical skills in designing alternative energy devices as well as organization of their production and assembling.

Module description

An analysis of the means used for the extraction of renewable energy, justification of the selected device, calculations of the main technical indicators are carried out. Preparation of the design documentation of the device. Justification of the assembly technological process and design of a non-standard assembling device for one assembly operation. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them.

Module description

According to the work task are developed the schemes of construction of mechanisms and devices, are calculated construction, kinematical and other parameters are creating the control schemes and algorithms. On the basis of loading are calculated the main construction sizes of the parts. The common wiews, assembly drawings and diagrams are creating of devices and their parts.

Module aim

To get acquainted with structure, elements, schemes and management of electrical power systems. Learn to assess the electrical power distribution systems modes and to know the basics of their design.

Module description

Energy system management. Electricity supplies. Synchronous and asynchronous generators. Consumers of electricity, load. Feeding local electrical power distribution systems. Protection and automation of electrical power distribution systems. Automatic control of electric power systems, alternative energy systems economy. Rational use of energy resources. Smart electrical power distribution systems, energy accounting system. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To provide knowledge of various equipment assembling technologies as well as devices and means usable.

Module description

Fundamental of accuracy achievement in assembly. Methods of assembly organization. Technological preparation. Division of an equipment into units, junctions, subjunctions. Assembly and control of typical connections and junctions. Mechanisation and automatization of assembly works. Comparison of ekonomical efficiency of clifferent processes of assembly. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To familiarize with friction and wear processes taking place in machine assemblies, their regularities, methods of increasing wear resistance of parts and applications of lubricants.

Module description

The basis of tribology and wear processes is presented in the module. Significance and development of tribology, physics of tribological materials and properties of materials surface, working surfaces of parts and their interaction, type of friction and lubrication, wear and its types, friction and abrasion tests, tribotechnical materials and coatings forming methods, methods of surface strengthening and wear prevention, structural methods of increasing wear resistance of parts and lubrication of friction pairs.
Students are required to attend at least 50 percent of lectures (continuous studies I stage and integral studies I and II courses), at least 60 percent of exercises during the time specified in the schedule.

Module aim

To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them

Module description

Calculation correction, selection of the schemes and the workflow. In design final works are made 4 of A1 size drawings – general view, assembly drawings of separate mechanisms and drawings of parts. In technological final works are made 4 of A1 size schemes of the technological processes and economical evaluation.

Module aim

To acquire practical skills in developing projects of energy tracking equipments as well as organization of their production and assembling.

Module description

An analysis of energy tracking means, a substantiation of the chosen method, calculations of the key technical indicators are carried out. Development of design documentation of equipment. Substantiation of assembling technological process and designing a non-standard assembling device for a single assembling operation.

Module aim

To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them.

Module description

According to the work task are developed the schemes of construction of mechanisms and devices, are calculated construction, kinematical and other parameters are creating the control schemes and algorithms. On the basis of loading are calculated the main construction sizes of the parts. The common wiews, assembly drawings and diagrams are creating of devices and their parts.

Module aim

To provide knowledge of various equipment assembling technologies as well as devices and means usable.

Module description

Fundamental of accuracy achievement in assembly. Methods of assembly organization. Technological preparation. Division of an equipment into units, junctions, subjunctions. Assembly and control of typical connections and junctions. Mechanisation and automatization of assembly works. Comparison of ekonomical efficiency of clifferent processes of assembly. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To familiarize with friction and wear processes taking place in machine assemblies, their regularities, methods of increasing wear resistance of parts and applications of lubricants.

Module description

The basis of tribology and wear processes is presented in the module. Significance and development of tribology, physics of tribological materials and properties of materials surface, working surfaces of parts and their interaction, type of friction and lubrication, wear and its types, friction and abrasion tests, tribotechnical materials and coatings forming methods, methods of surface strengthening and wear prevention, structural methods of increasing wear resistance of parts and lubrication of friction pairs.
Students are required to attend at least 50 percent of lectures (continuous studies I stage and integral studies I and II courses), at least 60 percent of exercises during the time specified in the schedule.

Module aim

To provide knowledge of modern secondary row material treatment methods, technologies, to teach how to design secondary row material treatment technological processes and equipment, used for secondary integration in manufacture.

Module description

The module provides information about methods and equipment used for secondary row material of solid, liquid and gas. Modern innovative technological routes of treatment of characteristic secondary row material (plastic, glass, metals, etc.) are analyses.

Module aim

To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them

Module description

Calculation correction, selection of the schemes and the workflow. In design final works are made 4 of A1 size drawings – general view, assembly drawings of separate mechanisms and drawings of parts. In technological final works are made 4 of A1 size schemes of the technological processes and economical evaluation.

Module aim

To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them.

Module description

According to the work task are developed the schemes of construction of mechanisms and devices, are calculated construction, kinematical and other parameters are creating the control schemes and algorithms. On the basis of loading are calculated the main construction sizes of the parts. The common wiews, assembly drawings and diagrams are creating of devices and their parts.

Module aim

To teach the specialist how to use CAD/CAM/CAE software to design and manufacture technological clamping devices used in machining operations.

Module description

The module helps the students to deepen their practical engineering skills using computer software to design and manufacture technological clamping devices. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

The course aims to provide students with the knowledge and skills necessary for innovation development.

Module description

This module presents key concepts and principles of innovation and innovation management process, innovation clasification, creativity stimulation tools and methods, ideas generation and evaluation process, management of innovation develoment team, development of innovation project, sources of innovation financing, innovation comercialisation process, intelectual property rights, licencing. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To provide knowledge of various equipment assembling technologies as well as devices and means usable.

Module description

Fundamental of accuracy achievement in assembly. Methods of assembly organization. Technological preparation. Division of an equipment into units, junctions, subjunctions. Assembly and control of typical connections and junctions. Mechanisation and automatization of assembly works. Comparison of ekonomical efficiency of clifferent processes of assembly. Participation in practical works at least 60% of the scheduled exercises is mandatory.

Module aim

To familiarize with friction and wear processes taking place in machine assemblies, their regularities, methods of increasing wear resistance of parts and applications of lubricants.

Module description

The basis of tribology and wear processes is presented in the module. Significance and development of tribology, physics of tribological materials and properties of materials surface, working surfaces of parts and their interaction, type of friction and lubrication, wear and its types, friction and abrasion tests, tribotechnical materials and coatings forming methods, methods of surface strengthening and wear prevention, structural methods of increasing wear resistance of parts and lubrication of friction pairs.
Students are required to attend at least 50 percent of lectures (continuous studies I stage and integral studies I and II courses), at least 60 percent of exercises during the time specified in the schedule.

Module aim

To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them

Module description

Calculation correction, selection of the schemes and the workflow. In design final works are made 4 of A1 size drawings – general view, assembly drawings of separate mechanisms and drawings of parts. In technological final works are made 4 of A1 size schemes of the technological processes and economical evaluation.

Module aim

To learn to write the Project theoretical part, to make technical calculations, to draw correctly drawings, present and define them.

Module description

According to the work task are developed the schemes of construction of mechanisms and devices, are calculated construction, kinematical and other parameters are creating the control schemes and algorithms. On the basis of loading are calculated the main construction sizes of the parts. The common wiews, assembly drawings and diagrams are creating of devices and their parts.

Module aim

To teach how to apply the acquired knowledge in preparation ofsimple installation or a part of a complex project. Teachself-analysis of innovative solutions to the optimum, based onmodern knowledge society and economy needs.

Module description

Cross-theme of the project’s relevance criteria. Innovative solutionsselection and deployment methods. Variant and patent analysis. Device / kinematic machine, the principles of structural-control schemes of the conclusion of the essential compounds in the design, metrology and process training. Engineering designcalculations, design and operation of automation and highlights the work training algorithms. Test procedures, inspection / monitoring,certification procedures for the conclusion. Economic evaluations. Device/machine using the uni t working environment tpenvironmental and safety aspects of organizational work. Summary.

Module aim

To teach how to operate in the company metrology and quality control department and in the manufacturing structure in accordance with international, EU and Lithuania metrological system requirements. Knowledges about planning, monitoring, evaluation of measuring the results, testing and inspection organization

Module description

Introduction to the subject matter of the issues. Lithuania and the International Metrology Organization. Measurement traceability and metrological system of Lithuania. Companies in the metrological service structure. Measurement planning. Criteria for selecting measures. The analysis of errors and their reduction. Measurements of the production organization. Quality assurance.Measurement results of treatment. Automation. Equipment of laboratory. Metrological expertise of design and technological documentation . Metrological aspects of product and company standard preparation. Product testing and certification procedures compiling. Preparing of measuring instruments verification procedures and other regulations. Summary.

Module aim

Introduce main standardization requirements, international, regional and national standards, principles and methods of standardization, purposes of certification, the legal basis for the regulatory certification, certification systems and schemes. Submit the accreditational and notificational principles of certification bodies and requirements to the market supervision. To teach follow the law, standards and directives requirements in the practice activities.

Module description

Main positions of standardization activities. International, regional and national standards. Principles and purposes of certification. Systems and schemes of certification. Normative and legal basis of certification. Principles of accreditation and notification of certification enterprises. Evaluation of conformance to the standards. CE marking. Supervision of market.

Module aim

To familiarize with friction and wear processes taking place in machine assemblies, their regularities, methods of increasing wear resistance of parts and applications of lubricants.

Module description

The basis of tribology and wear processes is presented in the module. Significance and development of tribology, physics of tribological materials and properties of materials surface, working surfaces of parts and their interaction, type of friction and lubrication, wear and its types, friction and abrasion tests, tribotechnical materials and coatings forming methods, methods of surface strengthening and wear prevention, structural methods of increasing wear resistance of parts and lubrication of friction pairs.
Students are required to attend at least 50 percent of lectures (continuous studies I stage and integral studies I and II courses), at least 60 percent of exercises during the time specified in the schedule.