Digital Teaching
The documents and records of past lectures can be found in the Moodle course.
Lehrinhalte
[list=1]
[*]Failure models and fatigue assessment
[*]Advanced rolling bearing technology
[*]Leading screws and linear drives
[*]Journal bearings
[*]Involute gears
[*]Bevel gears
[*]Worm gears
[*]Planetary gears
[*]Friction clutches
[*]Chain and belt drives
[/list]
Literature
[list]
[*]Lecture slides
[*]Kirchner, E. (2020), Maschinenelemente und Mechatronik II, Shaker Verlag GmbH Düren, 5. Auflage.
[*]Steinhilper, W., Sauer, B. (Hrsg.) (2012), Konstruktionselemente des Maschinenbaus 1 Grundlagen der Berechnung und Gestaltung von Maschinenelementen, Springer-Verlag Berlin Heidelberg, 8. Auflage.
[*]Steinhilper, W., Sauer, B. (Hrsg.) (2012), Konstruktionselemente des Maschinenbaus 2 Grundlagen von Maschinenelementen für Antriebsaufgaben, Springer-Verlag Berlin Heidelberg, 7. Auflage.
[*]Niemann, G., H. Winter & B.R. Höhn (2005), Maschinenelemente, Band 1: Konstruktion und Berechnung von Verbindungen, Lagern, Wellen. Springer Verlag.
[*]Schlecht, B. (2006), Maschinenelemente 1 Festigkeit, Wellen, Verbindungen, Federn, Kupplungen. Pearson Education, München, Boston, San Francisco.
[*]Schlecht, B. (2009), Maschinenelemente 2 Getriebe, Verzahnungen und Lagerungen. Pearson Education, München, Boston, San Francisco.
[/list]
Voraussetzungen
Knowledge and skills of Machine Elements and Mechatronics I and II, Engieering Mechanics I - III, Material Science and Enginnering I and II recommended.
Erwartete Teilnehmerzahl
50
Official Course Description
Main target of the lecture is to convey the basic design principles, dimensioning rules and structural analysis of conventional and smart machine elements in the following areas:
Failure models and fatigue assessment; advanced roller bearing technology; leading screws and linear drives; journal bearings; involute gears; bevel gears; worm and planetary gears; friction clutches; chain and belt drives.
The syllabus exceeds the normal text book content and includes new research results on each topic available progress reports on sensor integration concepts.
On successful completion of this module, students should be able to:
[list=1]
[*]Analyze the operational principles and functional characteristics of more complex components and subsystems in modern mechanical engineering.
[*]Select machine elements and subsystems according to functional requirements, to analyze functional interdependencies and to appropriately arrange the components in a system context.
[*]Explain typical failure mechanisms and to evaluate their relevance for practical applications.
[*]Synthesize new smart machine elements on a conceptual basis.
[*]Conduct a structural integrity assessment and to evaluate the dimensioning results.
[*]Identify limits of application for the specific machine elements and potentially integrated sensors.
[*]Assessing sensor concepts regarding the capability in a component integrated context.
[/list]
Nachhaltigkeitsbezug der Veranstaltungsinhalte
The lecture enables the students to design machine elements in a resource-saving manner and in line with requirements. In addition, the possibilities of condition monitoring for machine elements by using their mechanical and electric properties will be shown. So, the optimal operational time of the machine elements can be achieved. Furthermore, the basic requirements for machine elements in e-mobility powertrains will be provided.
Online-Angebote
The documents and records of past lectures can be found in the Moodle course.
The documents and records of past lectures can be found in the Moodle course.
Lehrinhalte
[list=1]
[*]Failure models and fatigue assessment
[*]Advanced rolling bearing technology
[*]Leading screws and linear drives
[*]Journal bearings
[*]Involute gears
[*]Bevel gears
[*]Worm gears
[*]Planetary gears
[*]Friction clutches
[*]Chain and belt drives
[/list]
Literature
[list]
[*]Lecture slides
[*]Kirchner, E. (2020), Maschinenelemente und Mechatronik II, Shaker Verlag GmbH Düren, 5. Auflage.
[*]Steinhilper, W., Sauer, B. (Hrsg.) (2012), Konstruktionselemente des Maschinenbaus 1 Grundlagen der Berechnung und Gestaltung von Maschinenelementen, Springer-Verlag Berlin Heidelberg, 8. Auflage.
[*]Steinhilper, W., Sauer, B. (Hrsg.) (2012), Konstruktionselemente des Maschinenbaus 2 Grundlagen von Maschinenelementen für Antriebsaufgaben, Springer-Verlag Berlin Heidelberg, 7. Auflage.
[*]Niemann, G., H. Winter & B.R. Höhn (2005), Maschinenelemente, Band 1: Konstruktion und Berechnung von Verbindungen, Lagern, Wellen. Springer Verlag.
[*]Schlecht, B. (2006), Maschinenelemente 1 Festigkeit, Wellen, Verbindungen, Federn, Kupplungen. Pearson Education, München, Boston, San Francisco.
[*]Schlecht, B. (2009), Maschinenelemente 2 Getriebe, Verzahnungen und Lagerungen. Pearson Education, München, Boston, San Francisco.
[/list]
Voraussetzungen
Knowledge and skills of Machine Elements and Mechatronics I and II, Engieering Mechanics I - III, Material Science and Enginnering I and II recommended.
Erwartete Teilnehmerzahl
50
Official Course Description
Main target of the lecture is to convey the basic design principles, dimensioning rules and structural analysis of conventional and smart machine elements in the following areas:
Failure models and fatigue assessment; advanced roller bearing technology; leading screws and linear drives; journal bearings; involute gears; bevel gears; worm and planetary gears; friction clutches; chain and belt drives.
The syllabus exceeds the normal text book content and includes new research results on each topic available progress reports on sensor integration concepts.
On successful completion of this module, students should be able to:
[list=1]
[*]Analyze the operational principles and functional characteristics of more complex components and subsystems in modern mechanical engineering.
[*]Select machine elements and subsystems according to functional requirements, to analyze functional interdependencies and to appropriately arrange the components in a system context.
[*]Explain typical failure mechanisms and to evaluate their relevance for practical applications.
[*]Synthesize new smart machine elements on a conceptual basis.
[*]Conduct a structural integrity assessment and to evaluate the dimensioning results.
[*]Identify limits of application for the specific machine elements and potentially integrated sensors.
[*]Assessing sensor concepts regarding the capability in a component integrated context.
[/list]
Nachhaltigkeitsbezug der Veranstaltungsinhalte
The lecture enables the students to design machine elements in a resource-saving manner and in line with requirements. In addition, the possibilities of condition monitoring for machine elements by using their mechanical and electric properties will be shown. So, the optimal operational time of the machine elements can be achieved. Furthermore, the basic requirements for machine elements in e-mobility powertrains will be provided.
Online-Angebote
The documents and records of past lectures can be found in the Moodle course.
- Lehrende: Eckhard Kirchner
Semester: WT 2022/23