Code | MMP539 |

Name | Vibrotechnology and Vibromachines |

Status | Compulsory/Courses of Limited Choice |

Level and type | Post-graduate Studies, Academic |

Field of study | Mechanics, Mechanical Engineering, Machine Building |

Faculty | |

Academic staff | Jānis Vība, Mihails Zakrževskis, Vitālijs Beresņevičs, Olga Kononova, Sabīne Upnere |

Credit points | 4.0 (6.0 ECTS) |

Parts | 1 |

Annotation |
Typical vibtotechnologies and machines. Fundamentals of the system. Nonlinear effects. Optimal design. Vibroisolation tasks. Optimal vibro-protection of machines and constructions. Complexes. Rotor dynamics. Design and calculations.. |

Goals and objectives of the course in terms of competences and skills |
To introduce students to the fundamentals of vibrotechnics. In order to achieve this goal the following tasks are fulfilled: 1st To analyze the fundamental relationships of the vibrotechnics, kinematics and dynamics. 2nd To teach students how to solve the vibrotechnical tasks in computer programs. 3rd To improve students' knowledge of physics related to the vibrotechnics and machinery. 4th To teach students the skills required to perform calculations of techniques, vibromachine and engineering facilities. |

Learning outcomes and assessment |
At the end of the course students will be able to evaluate the vibro processes in nature in different forms. - Questions at the laboratory work. At the end of the course students will be able to provide examples of the object vibration conditions. - Questions at the practical tests. At the end of the course students will be able to analyze the mechanisms and machinery. - Questions at the end of the lecture. At the end of the course students will be able to distinguish between technical and technological challenges. - Questions at the end of the lecture. At the end of the course students will be able to formulate a mechanical object of analysis tasks. - Assessment test At the end of the course students will be able to evaluate the mechanical engineer problems. - Exam. |

Course prerequisites | Math. Mechanics. Physics. |

[Extended course information PDF]