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Lecturer(s)
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Cais Jaromír, doc. Ing. Ph.D.
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Course content
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1. An overall summary of the basic methods of test for examining and determining the properties of materials and their use in research and practice. 2. Methods of non-destructive and destructive materials testing. 3. Methods of investigation of the internal structure of materials and fractography and their use in optimizing production processes and materials. 4. The procedures for resolving production, technological and material issue from the description and analysis of the problem to the final solution. 5. Continuous improvement of production and technological processes as a continuous process. 6. Practical examples of completed projects in the foundry. 7. Practical examples of completed projects in forming materials. 8. Practical examples of completed projects in the field of thermal processes and material properties. 9. Practical examples of completed projects in the field of machining and cutting. 10. Practical examples of completed projects in the field of optimization of production processes and technologies. 11. Selection of new materials and new technology in the optimization of machinery and equipment. 12. The integrity of the machined surface and its influence on the functionality and performance of products.
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Learning activities and teaching methods
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unspecified
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Learning outcomes
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The aim of the course is to point out the possibilities of optimizing production processes, improving technologies, or improving certain required properties of materials on practical projects for manufacturing companies. Reference is also made to the knowledge and improvement of construction materials with the aim of their optimal use in the production of certain parts of machines and equipment. Students will get acquainted with the use of instrumentation and measurement techniques in solving production problems. Students will get acquainted in detail with the general procedures for solving individual production, technical and material problems from the description of the problem, its analysis, possibilities and stages of solution, use Course contents: 1. A general overview of the basic test methods for examining and determining the properties of materials and their use in research and practice. 2. Methods of non-destructive and destructive testing of materials. 3. Methods of investigating the internal structure of materials and fractography and their use in the optimization of production processes and materials. 4. Procedures for solving production, technological and material problems from the description and analysis of the problem to the final solution. 5. Continuous improvement of production and technological processes as a continuous process. 6. Practical examples of solved projects in the field of foundry. 7. Practical examples of solved projects in the field of forming materials. 8. Practical examples of solved projects in the field of thermal processes and properties of materials. 9. Practical examples of solved projects in the field of machining and machining of materials. 10. Practical examples of solved projects in the field of optimization of production processes and technology. 11. Selection of new materials and new technologies in the optimization of machine and equipment components. 12. Integrity of machined surfaces and its influence on functionality and properties of products.
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Prerequisites
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Students will become familiar with the use of instrumentation and measurement technology in solving production problems. Detailed students learn in general practice in dealing with individual production, technical and material problems from the description of the problem, its analysis, opportunities and solution phase, using výzkumních and measuring techniques, verification and optimization of operation etc.
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Assessment methods and criteria
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unspecified
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Recommended literature
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B. BEDNÁŘ. Technologičnost konstrukce odlitků. UJEP 2005..
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B. KOPEC a kol. Nedestruktivní zkoušení materiálů a konstrukcí, CERM s.r.o.2008.
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P. Veles. Mechanické vlastnosti a skúšanie kovov . ALFA Bratislava 1989, SR.
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Š. Michna, I. Nová. Technologie a zpracování kovových materiálů, 2008. 2008.
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