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ДИСЦИПЛИНЫ - Физические основы получения информации.
В данной дисциплине изучаются физические основы измерительных преобразований, используемых для получения информации о различных свойствах объектов. Рассматриваются измерительные преобразования в низкочастотных электромагнитных, радиоволновых, акустических и тепловых полях, а также полях упругих деформаций, оптических и ионизирующих излучений. - Первичные измерительные преобразователи и приборы.
В данной дисциплине изучаются физические основы измерительных преобразователей, их конструкции, схемы включения, характеристики, области применения. Рассматриваются электрические, магнитные, вихретоковые, радиоволновые, акустические, тепловые, оптические измерительные преобразователи. - Электромагнитные методы контроля.
В данной дисциплине изучаются физические основы, техническая реализация, области использования электрического, магнитного, вихретокового методов неразрушающего контроля. - Электромагнитный контроль и диагностика.
В данной дисциплине рассматриваются теоретические основы, методики и средства диагностирования технических объектов на основе использования электрических, магнитных, вихретоковых методов неразрушающего контроля. DISCIPLINES - Physical principles of data obtaining.
This discipline studies the physical basis of the measuring conversions for information about the different properties of objects. Measurement conversion in low frequency electromagnetic, radio wave, acoustic and thermal fields, and the fields of elastic deformations, optical and ionizing radiation are considered. 2. Primary measuring transducers and instruments. - Primary measuring transducers and instruments.
This discipline studies the physical basis of transducers, their design, switching circuits, characteristics, applications. Electrical, magnetic, eddy current, radio wave, acoustic, thermal, optical transducers are considered. - Electromagnetic methods of control.
This discipline studies the physical basis, technical implementation, and the use of electrical, magnetic, eddy current methods of non-destructive testing. - Электромагнитный контроль и диагностика.
Electromagnetic inspection and diagnostics This discipline considers the theoretical basis, technique and means of diagnosing technical objects based on the use of electrical, magnetic, eddy current non-destructive testing methods.
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Primary measuring transducers and instruments Profile | 12.03.01 Instrument Making | Qualification (degree) | Bachelor | Year/semester | 2/4 | Number of credits | 4 | Assessment | Test | Learning activities and time resource | Teaching hours: 80 Independent study: 64 Total: 144 | Subject of study | This discipline studies the physical basis of transducers, their design, switching circuits, characteristics, applications | Sillabus | - Electrical transducers
- Magnetic transducers
- Eddy current transducers
- Radio wave transducers
- Acoustic transducers
- Thermal transducers
- Optical transducers
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Electromagnetic methods of control Profile | 12.03.01 Instrument Making | Qualification (degree) | Bachelor | Year/semester | 4/8 | Number of credits | 6 | Assessment | Test | Learning activities and time resource | Teaching hours: 77 Independent study: 139 Total: 216 | Subject of study | This discipline considers the theoretical basis, technique and means of diagnosing technical objects based on the use of electrical, magnetic, eddy current non-destructive testing methods | Sillabus | - Electrical non-destructive testing methods
- Magnetic non-destructive testing methods
- Eddy current non-destructive testing methods
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Electromagnetic inspection and diagnostics Profile | 12.03.01 Instrument Making | Qualification (degree) | Master | Year/semester | 2/3 | Number of credits | 6 | Assessment | Test | Learning activities and time resource | Teaching hours: 32 Independent study: 40 Total: 72 | Subject of study | This discipline considers the theoretical basis, technique and means of diagnosing technical objects based on the use of electrical, magnetic, eddy current non-destructive testing methods | Sillabus | - Diagnosing technical objects based on the use of electrical methods
- Diagnosing technical objects based on the use of magnetic methods
- Diagnosing technical objects based on the use of eddy current methods
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